; Copyright 2001 Free Software Foundation, Inc. ; ; This file is part of the GNU MP Library. ; ; The GNU MP 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 GNU MP 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 GNU MP Library; see the file COPYING.LIB. If ; not, write to the Free Software Foundation, Inc., 59 Temple Place - ; Suite 330, Boston, MA 02111-1307, USA. ; ; Translation of AT&T syntax code by Brian Gladman %include "..\..\x86i.inc" global ___gmpn_rshift %ifdef DLL export ___gmpn_rshift %endif %define PARAM_SHIFT esp+frame+16 %define PARAM_SIZE esp+frame+12 %define PARAM_SRC esp+frame+8 %define PARAM_DST esp+frame+4 %define frame 8 ; Minimum 5,because the unrolled loop can't handle less. %define UNROLL_THRESHOLD 5 section .text align 8 ___gmpn_rshift: push ebx push edi mov eax,[PARAM_SIZE] mov edx,[PARAM_DST] mov ebx,[PARAM_SRC] mov ecx,[PARAM_SHIFT] cmp eax,UNROLL_THRESHOLD jae Lunroll dec eax mov edi,[ebx] ; src low limb jnz Lsimple shrd eax,edi,cl shr edi,cl mov [edx],edi ; dst low limb pop edi ; risk of data cache bank clash pop ebx ret ; eax size-1 ; ebx src ; ecx shift ; edx dst ; esi ; edi ; ebp align 8 Lsimple: movd mm5,[ebx] ; src[0] lea ebx,[ebx+eax*4] ; &src[size-1] movd mm6,ecx ; rshift lea edx,[-4+edx+eax*4] ; &dst[size-2] psllq mm5,32 neg eax ; This loop is 5 or 8 cycles,with every second load unaligned and a wasted ; cycle waiting for the mm0 result to be ready. For comparison a shrdl is 4 ; cycles and would be 8 in a simple loop. Using mmx helps the return value ; and last limb calculations too. ; eax counter,limbs,negative ; ebx &src[size-1] ; ecx return value ; edx &dst[size-2] ; ; mm0 scratch ; mm5 return value ; mm6 shift Lsimple_top: movq mm0,[ebx+eax*4] inc eax psrlq mm0,mm6 movd [edx+eax*4],mm0 jnz Lsimple_top movd mm0,[ebx] psrlq mm5,mm6 ; return value psrlq mm0,mm6 pop edi movd eax,mm5 pop ebx movd [4+edx],mm0 emms ret ; eax size ; ebx src ; ecx shift ; edx dst ; esi ; edi ; ebp align 8 Lunroll: movd mm5,[ebx] ; src[0] mov edi,4 movd mm6,ecx ; rshift test ebx,edi psllq mm5,32 jz Lstart_src_aligned ; src isn't aligned,process low limb separately (marked xxx) and ; step src and dst by one limb,making src aligned. ; ; source ebx ; --+-------+-------+-------+ ; | xxx | ; --+-------+-------+-------+ ; 4mod8 0mod8 4mod8 ; ; dest edx ; --+-------+-------+ ; | | xxx | ; --+-------+-------+ movq mm0,[ebx] ; unaligned load psrlq mm0,mm6 add ebx,4 dec eax movd [edx],mm0 add edx,4 Lstart_src_aligned: movq mm1,[ebx] test edx,edi psrlq mm5,mm6 ; retval jz Lstart_dst_aligned ; dst isn't aligned,add 4 to make it so,and pretend the shift is ; 32 bits extra. Low limb of dst (marked xxx) handled here ; separately. ; ; source ebx ; --+-------+-------+ ; | mm1 | ; --+-------+-------+ ; 4mod8 0mod8 ; ; dest edx ; --+-------+-------+-------+ ; | xxx | ; --+-------+-------+-------+ ; 4mod8 0mod8 4mod8 movq mm0,mm1 add ecx,32 ; new shift psrlq mm0,mm6 movd mm6,ecx movd [edx],mm0 add edx,4 Lstart_dst_aligned: movq mm3,[8+ebx] neg ecx movq mm2,mm3 ; mm2 src qword add ecx,64 movd mm7,ecx psrlq mm1,mm6 lea ebx,[-12+ebx+eax*4] lea edx,[-20+edx+eax*4] psllq mm3,mm7 sub eax,7 ; size-7 por mm3,mm1 ; mm3 ready to store neg eax ; -(size-7) jns Lfinish ; This loop is the important bit,the rest is just support. Careful ; instruction scheduling achieves the claimed 1.75 c/l. The ; relevant parts of the pairing rules are: ; ; - mmx loads and stores execute only in the U pipe ; - only one mmx shift in a pair ; - wait one cycle before storing an mmx register result ; - the usual address generation interlock ; ; Two qword calculations are slightly interleaved. The instructions ; marked "C" belong to the second qword,and the "C prev" one is for ; the second qword from the previous iteration. ; eax counter,limbs,negative ; ebx &src[size-12] ; ecx ; edx &dst[size-12] ; esi ; edi ; ; mm0 ; mm1 ; mm2 src qword from -8(%ebx,%eax,4) ; mm3 dst qword ready to store to -8(%edx,%eax,4) ; ; mm5 return value ; mm6 rshift ; mm7 lshift align 8 Lunroll_loop: movq mm0,[ebx+eax*4] psrlq mm2,mm6 movq mm1,mm0 psllq mm0,mm7 movq [-8+edx+eax*4],mm3 por mm0,mm2 movq mm3,[ebx+eax*4+8] psrlq mm1,mm6 movq [edx+eax*4],mm0 movq mm2,mm3 psllq mm3,mm7 add eax,4 por mm3,mm1 js Lunroll_loop Lfinish: ; eax 0 to 3 representing respectively 3 to 0 limbs remaining test al,2 jnz Lfinish_no_two movq mm0,[ebx+eax*4] psrlq mm2,mm6 movq mm1,mm0 psllq mm0,mm7 movq [-8+edx+eax*4],mm3 ; prev por mm0,mm2 movq mm2,mm1 movq mm3,mm0 add eax,2 Lfinish_no_two: ; eax 2 or 3 representing respectively 1 or 0 limbs remaining ; ; mm2 src prev qword,from -8(%ebx,%eax,4) ; mm3 dst qword,for -8(%edx,%eax,4) test al,1 pop edi movd eax,mm5 ; retval jnz Lfinish_zero ; One extra limb,destination was aligned. ; ; source ebx ; +-------+---------------+-- ; | | mm2 | ; +-------+---------------+-- ; ; dest edx ; +-------+---------------+---------------+-- ; | | | mm3 | ; +-------+---------------+---------------+-- ; ; mm6 = shift ; mm7 = ecx = 64-shift ; One extra limb,destination was unaligned. ; ; source ebx ; +-------+---------------+-- ; | | mm2 | ; +-------+---------------+-- ; ; dest edx ; +---------------+---------------+-- ; | | mm3 | ; +---------------+---------------+-- ; ; mm6 = shift+32 ; mm7 = ecx = 64-(shift+32) ; In both cases there's one extra limb of src to fetch and combine ; with mm2 to make a qword at 8(%edx),and in the aligned case ; there's a further extra limb of dst to be formed. movd mm0,[8+ebx] psrlq mm2,mm6 movq mm1,mm0 psllq mm0,mm7 movq [edx],mm3 por mm0,mm2 psrlq mm1,mm6 and ecx,32 pop ebx jz Lfinish_one_unaligned ; dst was aligned,must store one extra limb movd [16+edx],mm1 Lfinish_one_unaligned: movq [8+edx],mm0 emms ret Lfinish_zero: ; No extra limbs,destination was aligned. ; ; source ebx ; +---------------+-- ; | mm2 | ; +---------------+-- ; ; dest edx+4 ; +---------------+---------------+-- ; | | mm3 | ; +---------------+---------------+-- ; ; mm6 = shift ; mm7 = ecx = 64-shift ; No extra limbs,destination was unaligned. ; ; source ebx ; +---------------+-- ; | mm2 | ; +---------------+-- ; ; dest edx+4 ; +-------+---------------+-- ; | | mm3 | ; +-------+---------------+-- ; ; mm6 = shift+32 ; mm7 = 64-(shift+32) ; The movd for the unaligned case is clearly the same data as the ; movq for the aligned case,it's just a choice between whether one ; or two limbs should be written. movq [4+edx],mm3 psrlq mm2,mm6 movd [12+edx],mm2 and ecx,32 pop ebx jz Lfinish_zero_unaligned movq [12+edx],mm2 Lfinish_zero_unaligned: emms ret end