dnl IA-64 mpn_lshiftc. dnl Contributed to the GNU project by Torbjorn Granlund. dnl Copyright 2000-2005, 2010 Free Software Foundation, Inc. dnl This file is part of the GNU MP Library. dnl dnl The GNU MP Library is free software; you can redistribute it and/or modify dnl it under the terms of either: dnl dnl * the GNU Lesser General Public License as published by the Free dnl Software Foundation; either version 3 of the License, or (at your dnl option) any later version. dnl dnl or dnl dnl * the GNU General Public License as published by the Free Software dnl Foundation; either version 2 of the License, or (at your option) any dnl later version. dnl dnl or both in parallel, as here. dnl dnl The GNU MP 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 General Public License dnl for more details. dnl dnl You should have received copies of the GNU General Public License and the dnl GNU Lesser General Public License along with the GNU MP Library. If not, dnl see https://www.gnu.org/licenses/. include(`../config.m4') C cycles/limb C Itanium: ? C Itanium 2: 1.25 C This code is scheduled deeply since the plain shift instructions shr and shl C have a latency of 4 (on Itanium) or 3 (on Itanium 2). Poor scheduling of C these instructions cause a 10 cycle replay trap on Itanium. C The ld8 scheduling should probably be decreased to make the function smaller. C Good lfetch will make sure we never stall anyway. C We should actually issue the first ld8 at cycle 0, and the first BSH/FSH pair C at cycle 2. Judicious use of predicates could allow us to issue more ld8's C in the prologue. C INPUT PARAMETERS define(`rp', `r32') define(`up', `r33') define(`n', `r34') define(`cnt',`r35') define(`tnc',`r9') define(`FSH',`shl') define(`BSH',`shr.u') define(`UPD',`-8') define(`POFF',`-512') define(`PUPD',`-32') define(`func',`mpn_lshiftc') ASM_START() PROLOGUE(mpn_lshiftc) .prologue .save ar.lc, r2 .body ifdef(`HAVE_ABI_32', ` addp4 rp = 0, rp C M I addp4 up = 0, up C M I sxt4 n = n C M I nop.m 0 nop.m 0 zxt4 cnt = cnt C I ;; ') {.mmi; nop 0 C M I and r14 = 3, n C M I mov.i r2 = ar.lc C I0 }{.mmi; add r15 = -1, n C M I sub tnc = 64, cnt C M I nop 0 ;; }{.mmi; cmp.eq p6, p0 = 1, r14 C M I cmp.eq p7, p0 = 2, r14 C M I shr.u n = r15, 2 C I0 }{.mmi; cmp.eq p8, p0 = 3, r14 C M I shladd up = r15, 3, up C M I shladd rp = r15, 3, rp C M I ;; }{.mmi; add r11 = POFF, up C M I ld8 r10 = [up], UPD C M01 mov.i ar.lc = n C I0 }{.bbb; (p6) br.dptk .Lb01 (p7) br.dptk .Lb10 (p8) br.dptk .Lb11 ;; } .Lb00: ld8 r19 = [up], UPD ;; ld8 r16 = [up], UPD ;; ld8 r17 = [up], UPD BSH r8 = r10, tnc br.cloop.dptk L(gt4) ;; FSH r24 = r10, cnt BSH r25 = r19, tnc ;; FSH r26 = r19, cnt BSH r27 = r16, tnc ;; FSH r20 = r16, cnt BSH r21 = r17, tnc ;; or r14 = r25, r24 FSH r22 = r17, cnt ;; or r15 = r27, r26 sub r31 = -1, r14 br .Lr4 L(gt4): {.mmi; nop 0 nop 0 FSH r24 = r10, cnt }{.mmi; ld8 r18 = [up], UPD nop 0 BSH r25 = r19, tnc ;; } {.mmi; nop 0 nop 0 FSH r26 = r19, cnt }{.mmi; ld8 r19 = [up], UPD nop 0 BSH r27 = r16, tnc ;; } {.mmi; nop 0 nop 0 FSH r20 = r16, cnt }{.mmi; ld8 r16 = [up], UPD nop 0 BSH r21 = r17, tnc ;; } {.mmi; nop 0 or r14 = r25, r24 FSH r22 = r17, cnt }{.mib; ld8 r17 = [up], UPD BSH r23 = r18, tnc br.cloop.dptk L(gt8) ;; } {.mmi; nop 0 or r15 = r27, r26 FSH r24 = r18, cnt }{.mib; sub r31 = -1, r14 BSH r25 = r19, tnc br .Lr8 } L(gt8): or r15 = r27, r26 FSH r24 = r18, cnt ld8 r18 = [up], UPD sub r31 = -1, r14 BSH r25 = r19, tnc br .LL00 .Lb01: br.cloop.dptk L(gt1) ;; BSH r8 = r10, tnc FSH r22 = r10, cnt ;; sub r31 = -1, r22 br .Lr1 ;; L(gt1): ld8 r18 = [up], UPD BSH r8 = r10, tnc FSH r22 = r10, cnt ;; ld8 r19 = [up], UPD ;; ld8 r16 = [up], UPD ;; ld8 r17 = [up], UPD BSH r23 = r18, tnc br.cloop.dptk L(gt5) ;; nop 0 FSH r24 = r18, cnt BSH r25 = r19, tnc ;; nop 0 FSH r26 = r19, cnt BSH r27 = r16, tnc ;; or r15 = r23, r22 FSH r20 = r16, cnt BSH r21 = r17, tnc ;; or r14 = r25, r24 FSH r22 = r17, cnt sub r31 = -1, r15 br .Lr5 L(gt5): {.mmi; nop 0 nop 0 FSH r24 = r18, cnt }{.mmi; ld8 r18 = [up], UPD nop 0 BSH r25 = r19, tnc ;; } {.mmi; nop 0 nop 0 FSH r26 = r19, cnt }{.mmi; ld8 r19 = [up], UPD nop 0 BSH r27 = r16, tnc ;; } {.mmi; nop 0 or r15 = r23, r22 FSH r20 = r16, cnt }{.mmi; ld8 r16 = [up], UPD nop 0 BSH r21 = r17, tnc ;; } {.mmi; or r14 = r25, r24 sub r31 = -1, r15 FSH r22 = r17, cnt }{.mib; ld8 r17 = [up], UPD BSH r23 = r18, tnc br L(end) ;; } .Lb10: ld8 r17 = [up], UPD br.cloop.dptk L(gt2) ;; BSH r8 = r10, tnc FSH r20 = r10, cnt ;; BSH r21 = r17, tnc FSH r22 = r17, cnt ;; or r14 = r21, r20 ;; sub r31 = -1, r14 br .Lr2 ;; L(gt2): ld8 r18 = [up], UPD BSH r8 = r10, tnc FSH r20 = r10, cnt ;; ld8 r19 = [up], UPD ;; ld8 r16 = [up], UPD BSH r21 = r17, tnc FSH r22 = r17, cnt ;; ld8 r17 = [up], UPD BSH r23 = r18, tnc br.cloop.dptk L(gt6) ;; nop 0 FSH r24 = r18, cnt BSH r25 = r19, tnc ;; or r14 = r21, r20 FSH r26 = r19, cnt BSH r27 = r16, tnc ;; {.mmi; nop 0 or r15 = r23, r22 FSH r20 = r16, cnt }{.mib; sub r31 = -1, r14 BSH r21 = r17, tnc br .Lr6 ;; } L(gt6): {.mmi; nop 0 nop 0 FSH r24 = r18, cnt }{.mmi; ld8 r18 = [up], UPD nop 0 BSH r25 = r19, tnc ;; } {.mmi; nop 0 or r14 = r21, r20 FSH r26 = r19, cnt }{.mmi; ld8 r19 = [up], UPD nop 0 BSH r27 = r16, tnc ;; } {.mmi; or r15 = r23, r22 sub r31 = -1, r14 FSH r20 = r16, cnt }{.mib; ld8 r16 = [up], UPD BSH r21 = r17, tnc br .LL10 } .Lb11: ld8 r16 = [up], UPD ;; ld8 r17 = [up], UPD BSH r8 = r10, tnc FSH r26 = r10, cnt br.cloop.dptk L(gt3) ;; BSH r27 = r16, tnc ;; FSH r20 = r16, cnt BSH r21 = r17, tnc ;; FSH r22 = r17, cnt ;; or r15 = r27, r26 ;; or r14 = r21, r20 sub r31 = -1, r15 br .Lr3 ;; L(gt3): ld8 r18 = [up], UPD ;; ld8 r19 = [up], UPD BSH r27 = r16, tnc ;; {.mmi; nop 0 nop 0 FSH r20 = r16, cnt }{.mmi; ld8 r16 = [up], UPD nop 0 BSH r21 = r17, tnc ;; } {.mmi nop 0 nop 0 FSH r22 = r17, cnt }{.mib; ld8 r17 = [up], UPD BSH r23 = r18, tnc br.cloop.dptk L(gt7) ;; } or r15 = r27, r26 FSH r24 = r18, cnt BSH r25 = r19, tnc ;; {.mmi; nop 0 or r14 = r21, r20 FSH r26 = r19, cnt }{.mib; sub r31 = -1, r15 BSH r27 = r16, tnc br .Lr7 } L(gt7): {.mmi; nop 0 or r15 = r27, r26 FSH r24 = r18, cnt }{.mmi; ld8 r18 = [up], UPD nop 0 BSH r25 = r19, tnc ;; } {.mmi; or r14 = r21, r20 sub r31 = -1, r15 FSH r26 = r19, cnt }{.mib; ld8 r19 = [up], UPD BSH r27 = r16, tnc br .LL11 } C *** MAIN LOOP START *** ALIGN(32) L(top): .LL01: {.mmi; st8 [rp] = r31, UPD C M2 or r15 = r27, r26 C M3 FSH r24 = r18, cnt C I0 }{.mmi; ld8 r18 = [up], UPD C M0 sub r31 = -1, r14 C M1 BSH r25 = r19, tnc C I1 ;; } .LL00: {.mmi; st8 [rp] = r31, UPD or r14 = r21, r20 FSH r26 = r19, cnt }{.mmi; ld8 r19 = [up], UPD sub r31 = -1, r15 BSH r27 = r16, tnc ;; } .LL11: {.mmi; st8 [rp] = r31, UPD or r15 = r23, r22 FSH r20 = r16, cnt }{.mmi; ld8 r16 = [up], UPD sub r31 = -1, r14 BSH r21 = r17, tnc ;; } .LL10: {.mmi; st8 [rp] = r31, UPD or r14 = r25, r24 FSH r22 = r17, cnt }{.mmi; ld8 r17 = [up], UPD sub r31 = -1, r15 BSH r23 = r18, tnc ;; } L(end): lfetch [r11], PUPD br.cloop.dptk L(top) C *** MAIN LOOP END *** {.mmi; st8 [rp] = r31, UPD or r15 = r27, r26 FSH r24 = r18, cnt }{.mib; sub r31 = -1, r14 BSH r25 = r19, tnc nop 0 ;; } .Lr8: {.mmi; st8 [rp] = r31, UPD or r14 = r21, r20 FSH r26 = r19, cnt }{.mib; sub r31 = -1, r15 BSH r27 = r16, tnc nop 0 ;; } .Lr7: {.mmi; st8 [rp] = r31, UPD or r15 = r23, r22 FSH r20 = r16, cnt }{.mib; sub r31 = -1, r14 BSH r21 = r17, tnc nop 0 ;; } .Lr6: st8 [rp] = r31, UPD or r14 = r25, r24 FSH r22 = r17, cnt sub r31 = -1, r15 ;; .Lr5: st8 [rp] = r31, UPD or r15 = r27, r26 sub r31 = -1, r14 ;; .Lr4: st8 [rp] = r31, UPD or r14 = r21, r20 sub r31 = -1, r15 ;; .Lr3: st8 [rp] = r31, UPD sub r31 = -1, r14 ;; .Lr2: st8 [rp] = r31, UPD sub r31 = -1, r22 ;; .Lr1: st8 [rp] = r31, UPD C M23 mov ar.lc = r2 C I0 br.ret.sptk.many b0 C B EPILOGUE(func) ASM_END()