| dnl IA-64 mpn_mul_2 -- Multiply a n-limb number with a 2-limb number and store |
| dnl store the result to a (n+1)-limb number. |
| |
| dnl Contributed to the GNU project by Torbjorn Granlund. |
| |
| dnl Copyright 2004, 2011 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: 1.5 |
| |
| C TODO |
| C * Clean up variable names, and try to decrease the number of distinct |
| C registers used. |
| C * Clean up feed-in code to not require zeroing several registers. |
| C * Make sure we don't depend on uninitialized predicate registers. |
| C * Could perhaps save a few cycles by using 1 c/l carry propagation in |
| C wind-down code. |
| C * Ultimately rewrite. The problem with this code is that it first uses a |
| C loaded u value in one xma pair, then leaves it live over several unrelated |
| C xma pairs, before it uses it again. It should actually be quite possible |
| C to just swap some aligned xma pairs around. But we should then schedule |
| C u loads further from the first use. |
| |
| C INPUT PARAMETERS |
| define(`rp',`r32') |
| define(`up',`r33') |
| define(`n',`r34') |
| define(`vp',`r35') |
| |
| define(`srp',`r3') |
| |
| define(`v0',`f6') |
| define(`v1',`f7') |
| |
| define(`s0',`r14') |
| define(`acc0',`r15') |
| |
| define(`pr0_0',`r16') define(`pr0_1',`r17') |
| define(`pr0_2',`r18') define(`pr0_3',`r19') |
| |
| define(`pr1_0',`r20') define(`pr1_1',`r21') |
| define(`pr1_2',`r22') define(`pr1_3',`r23') |
| |
| define(`acc1_0',`r24') define(`acc1_1',`r25') |
| define(`acc1_2',`r26') define(`acc1_3',`r27') |
| |
| dnl define(`',`r28') |
| dnl define(`',`r29') |
| dnl define(`',`r30') |
| dnl define(`',`r31') |
| |
| define(`fp0b_0',`f8') define(`fp0b_1',`f9') |
| define(`fp0b_2',`f10') define(`fp0b_3',`f11') |
| |
| define(`fp1a_0',`f12') define(`fp1a_1',`f13') |
| define(`fp1a_2',`f14') define(`fp1a_3',`f15') |
| |
| define(`fp1b_0',`f32') define(`fp1b_1',`f33') |
| define(`fp1b_2',`f34') define(`fp1b_3',`f35') |
| |
| define(`fp2a_0',`f36') define(`fp2a_1',`f37') |
| define(`fp2a_2',`f38') define(`fp2a_3',`f39') |
| |
| define(`u_0',`f44') define(`u_1',`f45') |
| define(`u_2',`f46') define(`u_3',`f47') |
| |
| define(`ux',`f49') |
| define(`uy',`f51') |
| |
| ASM_START() |
| PROLOGUE(mpn_mul_2) |
| .prologue |
| .save ar.lc, r2 |
| .body |
| |
| ifdef(`HAVE_ABI_32',` |
| {.mmi; addp4 rp = 0, rp C M I |
| addp4 up = 0, up C M I |
| addp4 vp = 0, vp C M I |
| }{.mmi; nop 1 |
| nop 1 |
| zxt4 n = n C I |
| ;; |
| }') |
| |
| {.mmi; ldf8 ux = [up], 8 C M |
| ldf8 v0 = [vp], 8 C M |
| mov r2 = ar.lc C I0 |
| }{.mmi; nop 1 C M |
| and r14 = 3, n C M I |
| add n = -2, n C M I |
| ;; |
| }{.mmi; ldf8 uy = [up], 8 C M |
| ldf8 v1 = [vp] C M |
| shr.u n = n, 2 C I0 |
| }{.mmi; nop 1 C M |
| cmp.eq p10, p0 = 1, r14 C M I |
| cmp.eq p11, p0 = 2, r14 C M I |
| ;; |
| }{.mmi; nop 1 C M |
| cmp.eq p12, p0 = 3, r14 C M I |
| mov ar.lc = n C I0 |
| }{.bbb; (p10) br.dptk L(b01) C B |
| (p11) br.dptk L(b10) C B |
| (p12) br.dptk L(b11) C B |
| ;; |
| } |
| ALIGN(32) |
| L(b00): ldf8 u_1 = [up], 8 |
| mov acc1_2 = 0 |
| mov pr1_2 = 0 |
| mov pr0_3 = 0 |
| cmp.ne p8, p9 = r0, r0 |
| ;; |
| xma.l fp0b_3 = ux, v0, f0 |
| cmp.ne p12, p13 = r0, r0 |
| ldf8 u_2 = [up], 8 |
| xma.hu fp1a_3 = ux, v0, f0 |
| br.cloop.dptk L(gt4) |
| |
| xma.l fp0b_0 = uy, v0, f0 |
| xma.hu fp1a_0 = uy, v0, f0 |
| ;; |
| getfsig acc0 = fp0b_3 |
| xma.l fp1b_3 = ux, v1, fp1a_3 |
| xma.hu fp2a_3 = ux, v1, fp1a_3 |
| ;; |
| xma.l fp0b_1 = u_1, v0, f0 |
| xma.hu fp1a_1 = u_1, v0, f0 |
| ;; |
| getfsig pr0_0 = fp0b_0 |
| xma.l fp1b_0 = uy, v1, fp1a_0 |
| xma.hu fp2a_0 = uy, v1, fp1a_0 |
| ;; |
| getfsig pr1_3 = fp1b_3 |
| getfsig acc1_3 = fp2a_3 |
| xma.l fp0b_2 = u_2, v0, f0 |
| xma.hu fp1a_2 = u_2, v0, f0 |
| br L(cj4) |
| |
| L(gt4): xma.l fp0b_0 = uy, v0, f0 |
| xma.hu fp1a_0 = uy, v0, f0 |
| ;; |
| getfsig acc0 = fp0b_3 |
| xma.l fp1b_3 = ux, v1, fp1a_3 |
| ldf8 u_3 = [up], 8 |
| xma.hu fp2a_3 = ux, v1, fp1a_3 |
| ;; |
| xma.l fp0b_1 = u_1, v0, f0 |
| xma.hu fp1a_1 = u_1, v0, f0 |
| ;; |
| getfsig pr0_0 = fp0b_0 |
| xma.l fp1b_0 = uy, v1, fp1a_0 |
| xma.hu fp2a_0 = uy, v1, fp1a_0 |
| ;; |
| ldf8 u_0 = [up], 8 |
| getfsig pr1_3 = fp1b_3 |
| xma.l fp0b_2 = u_2, v0, f0 |
| ;; |
| getfsig acc1_3 = fp2a_3 |
| xma.hu fp1a_2 = u_2, v0, f0 |
| br L(00) |
| |
| |
| ALIGN(32) |
| L(b01): ldf8 u_0 = [up], 8 C M |
| mov acc1_1 = 0 C M I |
| mov pr1_1 = 0 C M I |
| mov pr0_2 = 0 C M I |
| cmp.ne p6, p7 = r0, r0 C M I |
| ;; |
| xma.l fp0b_2 = ux, v0, f0 C F |
| cmp.ne p10, p11 = r0, r0 C M I |
| ldf8 u_1 = [up], 8 C M |
| xma.hu fp1a_2 = ux, v0, f0 C F |
| ;; |
| xma.l fp0b_3 = uy, v0, f0 C F |
| xma.hu fp1a_3 = uy, v0, f0 C F |
| ;; |
| getfsig acc0 = fp0b_2 C M |
| xma.l fp1b_2 = ux, v1,fp1a_2 C F |
| ldf8 u_2 = [up], 8 C M |
| xma.hu fp2a_2 = ux, v1,fp1a_2 C F |
| br.cloop.dptk L(gt5) |
| |
| xma.l fp0b_0 = u_0, v0, f0 C F |
| xma.hu fp1a_0 = u_0, v0, f0 C F |
| ;; |
| getfsig pr0_3 = fp0b_3 C M |
| xma.l fp1b_3 = uy, v1,fp1a_3 C F |
| xma.hu fp2a_3 = uy, v1,fp1a_3 C F |
| ;; |
| getfsig pr1_2 = fp1b_2 C M |
| getfsig acc1_2 = fp2a_2 C M |
| xma.l fp0b_1 = u_1, v0, f0 C F |
| xma.hu fp1a_1 = u_1, v0, f0 C F |
| br L(cj5) |
| |
| L(gt5): xma.l fp0b_0 = u_0, v0, f0 |
| xma.hu fp1a_0 = u_0, v0, f0 |
| ;; |
| getfsig pr0_3 = fp0b_3 |
| xma.l fp1b_3 = uy, v1, fp1a_3 |
| xma.hu fp2a_3 = uy, v1, fp1a_3 |
| ;; |
| ldf8 u_3 = [up], 8 |
| getfsig pr1_2 = fp1b_2 |
| xma.l fp0b_1 = u_1, v0, f0 |
| ;; |
| getfsig acc1_2 = fp2a_2 |
| xma.hu fp1a_1 = u_1, v0, f0 |
| br L(01) |
| |
| |
| ALIGN(32) |
| L(b10): br.cloop.dptk L(gt2) |
| xma.l fp0b_1 = ux, v0, f0 |
| xma.hu fp1a_1 = ux, v0, f0 |
| ;; |
| xma.l fp0b_2 = uy, v0, f0 |
| xma.hu fp1a_2 = uy, v0, f0 |
| ;; |
| stf8 [rp] = fp0b_1, 8 |
| xma.l fp1b_1 = ux, v1, fp1a_1 |
| xma.hu fp2a_1 = ux, v1, fp1a_1 |
| ;; |
| getfsig acc0 = fp0b_2 |
| xma.l fp1b_2 = uy, v1, fp1a_2 |
| xma.hu fp2a_2 = uy, v1, fp1a_2 |
| ;; |
| getfsig pr1_1 = fp1b_1 |
| getfsig acc1_1 = fp2a_1 |
| mov ar.lc = r2 |
| getfsig pr1_2 = fp1b_2 |
| getfsig r8 = fp2a_2 |
| ;; |
| add s0 = pr1_1, acc0 |
| ;; |
| st8 [rp] = s0, 8 |
| cmp.ltu p8, p9 = s0, pr1_1 |
| sub r31 = -1, acc1_1 |
| ;; |
| .pred.rel "mutex", p8, p9 |
| (p8) add acc0 = pr1_2, acc1_1, 1 |
| (p9) add acc0 = pr1_2, acc1_1 |
| (p8) cmp.leu p10, p0 = r31, pr1_2 |
| (p9) cmp.ltu p10, p0 = r31, pr1_2 |
| ;; |
| st8 [rp] = acc0, 8 |
| (p10) add r8 = 1, r8 |
| br.ret.sptk.many b0 |
| |
| L(gt2): ldf8 u_3 = [up], 8 |
| mov acc1_0 = 0 |
| mov pr1_0 = 0 |
| ;; |
| mov pr0_1 = 0 |
| xma.l fp0b_1 = ux, v0, f0 |
| ldf8 u_0 = [up], 8 |
| xma.hu fp1a_1 = ux, v0, f0 |
| ;; |
| xma.l fp0b_2 = uy, v0, f0 |
| xma.hu fp1a_2 = uy, v0, f0 |
| ;; |
| getfsig acc0 = fp0b_1 |
| xma.l fp1b_1 = ux, v1, fp1a_1 |
| xma.hu fp2a_1 = ux, v1, fp1a_1 |
| ;; |
| ldf8 u_1 = [up], 8 |
| xma.l fp0b_3 = u_3, v0, f0 |
| xma.hu fp1a_3 = u_3, v0, f0 |
| ;; |
| getfsig pr0_2 = fp0b_2 |
| xma.l fp1b_2 = uy, v1, fp1a_2 |
| xma.hu fp2a_2 = uy, v1, fp1a_2 |
| ;; |
| ldf8 u_2 = [up], 8 |
| getfsig pr1_1 = fp1b_1 |
| ;; |
| {.mfi; getfsig acc1_1 = fp2a_1 |
| xma.l fp0b_0 = u_0, v0, f0 |
| cmp.ne p8, p9 = r0, r0 |
| }{.mfb; cmp.ne p12, p13 = r0, r0 |
| xma.hu fp1a_0 = u_0, v0, f0 |
| br L(10) |
| } |
| |
| ALIGN(32) |
| L(b11): mov acc1_3 = 0 |
| mov pr1_3 = 0 |
| mov pr0_0 = 0 |
| ldf8 u_2 = [up], 8 |
| cmp.ne p6, p7 = r0, r0 |
| br.cloop.dptk L(gt3) |
| ;; |
| xma.l fp0b_0 = ux, v0, f0 |
| xma.hu fp1a_0 = ux, v0, f0 |
| ;; |
| cmp.ne p10, p11 = r0, r0 |
| xma.l fp0b_1 = uy, v0, f0 |
| xma.hu fp1a_1 = uy, v0, f0 |
| ;; |
| getfsig acc0 = fp0b_0 |
| xma.l fp1b_0 = ux, v1, fp1a_0 |
| xma.hu fp2a_0 = ux, v1, fp1a_0 |
| ;; |
| xma.l fp0b_2 = u_2, v0, f0 |
| xma.hu fp1a_2 = u_2, v0, f0 |
| ;; |
| getfsig pr0_1 = fp0b_1 |
| xma.l fp1b_1 = uy, v1, fp1a_1 |
| xma.hu fp2a_1 = uy, v1, fp1a_1 |
| ;; |
| getfsig pr1_0 = fp1b_0 |
| getfsig acc1_0 = fp2a_0 |
| br L(cj3) |
| |
| L(gt3): xma.l fp0b_0 = ux, v0, f0 |
| cmp.ne p10, p11 = r0, r0 |
| ldf8 u_3 = [up], 8 |
| xma.hu fp1a_0 = ux, v0, f0 |
| ;; |
| xma.l fp0b_1 = uy, v0, f0 |
| xma.hu fp1a_1 = uy, v0, f0 |
| ;; |
| getfsig acc0 = fp0b_0 |
| xma.l fp1b_0 = ux, v1, fp1a_0 |
| ldf8 u_0 = [up], 8 |
| xma.hu fp2a_0 = ux, v1, fp1a_0 |
| ;; |
| xma.l fp0b_2 = u_2, v0, f0 |
| xma.hu fp1a_2 = u_2, v0, f0 |
| ;; |
| getfsig pr0_1 = fp0b_1 |
| xma.l fp1b_1 = uy, v1, fp1a_1 |
| xma.hu fp2a_1 = uy, v1, fp1a_1 |
| ;; |
| ldf8 u_1 = [up], 8 |
| getfsig pr1_0 = fp1b_0 |
| ;; |
| getfsig acc1_0 = fp2a_0 |
| xma.l fp0b_3 = u_3, v0, f0 |
| xma.hu fp1a_3 = u_3, v0, f0 |
| br L(11) |
| |
| |
| C *** MAIN LOOP START *** |
| ALIGN(32) |
| L(top): C 00 |
| .pred.rel "mutex", p8, p9 |
| .pred.rel "mutex", p12, p13 |
| ldf8 u_3 = [up], 8 |
| getfsig pr1_2 = fp1b_2 |
| (p8) cmp.leu p6, p7 = acc0, pr0_1 |
| (p9) cmp.ltu p6, p7 = acc0, pr0_1 |
| (p12) cmp.leu p10, p11 = s0, pr1_0 |
| (p13) cmp.ltu p10, p11 = s0, pr1_0 |
| ;; C 01 |
| .pred.rel "mutex", p6, p7 |
| getfsig acc1_2 = fp2a_2 |
| st8 [rp] = s0, 8 |
| xma.l fp0b_1 = u_1, v0, f0 |
| (p6) add acc0 = pr0_2, acc1_0, 1 |
| (p7) add acc0 = pr0_2, acc1_0 |
| xma.hu fp1a_1 = u_1, v0, f0 |
| ;; C 02 |
| L(01): |
| .pred.rel "mutex", p10, p11 |
| getfsig pr0_0 = fp0b_0 |
| xma.l fp1b_0 = u_0, v1, fp1a_0 |
| (p10) add s0 = pr1_1, acc0, 1 |
| (p11) add s0 = pr1_1, acc0 |
| xma.hu fp2a_0 = u_0, v1, fp1a_0 |
| nop 1 |
| ;; C 03 |
| .pred.rel "mutex", p6, p7 |
| .pred.rel "mutex", p10, p11 |
| ldf8 u_0 = [up], 8 |
| getfsig pr1_3 = fp1b_3 |
| (p6) cmp.leu p8, p9 = acc0, pr0_2 |
| (p7) cmp.ltu p8, p9 = acc0, pr0_2 |
| (p10) cmp.leu p12, p13 = s0, pr1_1 |
| (p11) cmp.ltu p12, p13 = s0, pr1_1 |
| ;; C 04 |
| .pred.rel "mutex", p8, p9 |
| getfsig acc1_3 = fp2a_3 |
| st8 [rp] = s0, 8 |
| xma.l fp0b_2 = u_2, v0, f0 |
| (p8) add acc0 = pr0_3, acc1_1, 1 |
| (p9) add acc0 = pr0_3, acc1_1 |
| xma.hu fp1a_2 = u_2, v0, f0 |
| ;; C 05 |
| L(00): |
| .pred.rel "mutex", p12, p13 |
| getfsig pr0_1 = fp0b_1 |
| xma.l fp1b_1 = u_1, v1, fp1a_1 |
| (p12) add s0 = pr1_2, acc0, 1 |
| (p13) add s0 = pr1_2, acc0 |
| xma.hu fp2a_1 = u_1, v1, fp1a_1 |
| nop 1 |
| ;; C 06 |
| .pred.rel "mutex", p8, p9 |
| .pred.rel "mutex", p12, p13 |
| ldf8 u_1 = [up], 8 |
| getfsig pr1_0 = fp1b_0 |
| (p8) cmp.leu p6, p7 = acc0, pr0_3 |
| (p9) cmp.ltu p6, p7 = acc0, pr0_3 |
| (p12) cmp.leu p10, p11 = s0, pr1_2 |
| (p13) cmp.ltu p10, p11 = s0, pr1_2 |
| ;; C 07 |
| .pred.rel "mutex", p6, p7 |
| getfsig acc1_0 = fp2a_0 |
| st8 [rp] = s0, 8 |
| xma.l fp0b_3 = u_3, v0, f0 |
| (p6) add acc0 = pr0_0, acc1_2, 1 |
| (p7) add acc0 = pr0_0, acc1_2 |
| xma.hu fp1a_3 = u_3, v0, f0 |
| ;; C 08 |
| L(11): |
| .pred.rel "mutex", p10, p11 |
| getfsig pr0_2 = fp0b_2 |
| xma.l fp1b_2 = u_2, v1, fp1a_2 |
| (p10) add s0 = pr1_3, acc0, 1 |
| (p11) add s0 = pr1_3, acc0 |
| xma.hu fp2a_2 = u_2, v1, fp1a_2 |
| nop 1 |
| ;; C 09 |
| .pred.rel "mutex", p6, p7 |
| .pred.rel "mutex", p10, p11 |
| ldf8 u_2 = [up], 8 |
| getfsig pr1_1 = fp1b_1 |
| (p6) cmp.leu p8, p9 = acc0, pr0_0 |
| (p7) cmp.ltu p8, p9 = acc0, pr0_0 |
| (p10) cmp.leu p12, p13 = s0, pr1_3 |
| (p11) cmp.ltu p12, p13 = s0, pr1_3 |
| ;; C 10 |
| .pred.rel "mutex", p8, p9 |
| getfsig acc1_1 = fp2a_1 |
| st8 [rp] = s0, 8 |
| xma.l fp0b_0 = u_0, v0, f0 |
| (p8) add acc0 = pr0_1, acc1_3, 1 |
| (p9) add acc0 = pr0_1, acc1_3 |
| xma.hu fp1a_0 = u_0, v0, f0 |
| ;; C 11 |
| L(10): |
| .pred.rel "mutex", p12, p13 |
| getfsig pr0_3 = fp0b_3 |
| xma.l fp1b_3 = u_3, v1, fp1a_3 |
| (p12) add s0 = pr1_0, acc0, 1 |
| (p13) add s0 = pr1_0, acc0 |
| xma.hu fp2a_3 = u_3, v1, fp1a_3 |
| br.cloop.dptk L(top) |
| ;; |
| C *** MAIN LOOP END *** |
| |
| .pred.rel "mutex", p8, p9 |
| .pred.rel "mutex", p12, p13 |
| {.mmi; getfsig pr1_2 = fp1b_2 |
| st8 [rp] = s0, 8 |
| (p8) cmp.leu p6, p7 = acc0, pr0_1 |
| }{.mmi; (p9) cmp.ltu p6, p7 = acc0, pr0_1 |
| (p12) cmp.leu p10, p11 = s0, pr1_0 |
| (p13) cmp.ltu p10, p11 = s0, pr1_0 |
| ;; |
| } .pred.rel "mutex", p6, p7 |
| {.mfi; getfsig acc1_2 = fp2a_2 |
| xma.l fp0b_1 = u_1, v0, f0 |
| nop 1 |
| }{.mmf; (p6) add acc0 = pr0_2, acc1_0, 1 |
| (p7) add acc0 = pr0_2, acc1_0 |
| xma.hu fp1a_1 = u_1, v0, f0 |
| ;; |
| } |
| L(cj5): |
| .pred.rel "mutex", p10, p11 |
| {.mfi; getfsig pr0_0 = fp0b_0 |
| xma.l fp1b_0 = u_0, v1, fp1a_0 |
| (p10) add s0 = pr1_1, acc0, 1 |
| }{.mfi; (p11) add s0 = pr1_1, acc0 |
| xma.hu fp2a_0 = u_0, v1, fp1a_0 |
| nop 1 |
| ;; |
| } .pred.rel "mutex", p6, p7 |
| .pred.rel "mutex", p10, p11 |
| {.mmi; getfsig pr1_3 = fp1b_3 |
| st8 [rp] = s0, 8 |
| (p6) cmp.leu p8, p9 = acc0, pr0_2 |
| }{.mmi; (p7) cmp.ltu p8, p9 = acc0, pr0_2 |
| (p10) cmp.leu p12, p13 = s0, pr1_1 |
| (p11) cmp.ltu p12, p13 = s0, pr1_1 |
| ;; |
| } .pred.rel "mutex", p8, p9 |
| {.mfi; getfsig acc1_3 = fp2a_3 |
| xma.l fp0b_2 = u_2, v0, f0 |
| nop 1 |
| }{.mmf; (p8) add acc0 = pr0_3, acc1_1, 1 |
| (p9) add acc0 = pr0_3, acc1_1 |
| xma.hu fp1a_2 = u_2, v0, f0 |
| ;; |
| } |
| L(cj4): |
| .pred.rel "mutex", p12, p13 |
| {.mfi; getfsig pr0_1 = fp0b_1 |
| xma.l fp1b_1 = u_1, v1, fp1a_1 |
| (p12) add s0 = pr1_2, acc0, 1 |
| }{.mfi; (p13) add s0 = pr1_2, acc0 |
| xma.hu fp2a_1 = u_1, v1, fp1a_1 |
| nop 1 |
| ;; |
| } .pred.rel "mutex", p8, p9 |
| .pred.rel "mutex", p12, p13 |
| {.mmi; getfsig pr1_0 = fp1b_0 |
| st8 [rp] = s0, 8 |
| (p8) cmp.leu p6, p7 = acc0, pr0_3 |
| }{.mmi; (p9) cmp.ltu p6, p7 = acc0, pr0_3 |
| (p12) cmp.leu p10, p11 = s0, pr1_2 |
| (p13) cmp.ltu p10, p11 = s0, pr1_2 |
| ;; |
| } .pred.rel "mutex", p6, p7 |
| {.mmi; getfsig acc1_0 = fp2a_0 |
| (p6) add acc0 = pr0_0, acc1_2, 1 |
| (p7) add acc0 = pr0_0, acc1_2 |
| ;; |
| } |
| L(cj3): |
| .pred.rel "mutex", p10, p11 |
| {.mfi; getfsig pr0_2 = fp0b_2 |
| xma.l fp1b_2 = u_2, v1, fp1a_2 |
| (p10) add s0 = pr1_3, acc0, 1 |
| }{.mfi; (p11) add s0 = pr1_3, acc0 |
| xma.hu fp2a_2 = u_2, v1, fp1a_2 |
| nop 1 |
| ;; |
| } .pred.rel "mutex", p6, p7 |
| .pred.rel "mutex", p10, p11 |
| {.mmi; getfsig pr1_1 = fp1b_1 |
| st8 [rp] = s0, 8 |
| (p6) cmp.leu p8, p9 = acc0, pr0_0 |
| }{.mmi; (p7) cmp.ltu p8, p9 = acc0, pr0_0 |
| (p10) cmp.leu p12, p13 = s0, pr1_3 |
| (p11) cmp.ltu p12, p13 = s0, pr1_3 |
| ;; |
| } .pred.rel "mutex", p8, p9 |
| {.mmi; getfsig acc1_1 = fp2a_1 |
| (p8) add acc0 = pr0_1, acc1_3, 1 |
| (p9) add acc0 = pr0_1, acc1_3 |
| ;; |
| } .pred.rel "mutex", p12, p13 |
| {.mmi; (p12) add s0 = pr1_0, acc0, 1 |
| (p13) add s0 = pr1_0, acc0 |
| nop 1 |
| ;; |
| } .pred.rel "mutex", p8, p9 |
| .pred.rel "mutex", p12, p13 |
| {.mmi; getfsig pr1_2 = fp1b_2 |
| st8 [rp] = s0, 8 |
| (p8) cmp.leu p6, p7 = acc0, pr0_1 |
| }{.mmi; (p9) cmp.ltu p6, p7 = acc0, pr0_1 |
| (p12) cmp.leu p10, p11 = s0, pr1_0 |
| (p13) cmp.ltu p10, p11 = s0, pr1_0 |
| ;; |
| } .pred.rel "mutex", p6, p7 |
| {.mmi; getfsig r8 = fp2a_2 |
| (p6) add acc0 = pr0_2, acc1_0, 1 |
| (p7) add acc0 = pr0_2, acc1_0 |
| ;; |
| } .pred.rel "mutex", p10, p11 |
| {.mmi; (p10) add s0 = pr1_1, acc0, 1 |
| (p11) add s0 = pr1_1, acc0 |
| (p6) cmp.leu p8, p9 = acc0, pr0_2 |
| ;; |
| } .pred.rel "mutex", p10, p11 |
| {.mmi; (p7) cmp.ltu p8, p9 = acc0, pr0_2 |
| (p10) cmp.leu p12, p13 = s0, pr1_1 |
| (p11) cmp.ltu p12, p13 = s0, pr1_1 |
| ;; |
| } .pred.rel "mutex", p8, p9 |
| {.mmi; st8 [rp] = s0, 8 |
| (p8) add acc0 = pr1_2, acc1_1, 1 |
| (p9) add acc0 = pr1_2, acc1_1 |
| ;; |
| } .pred.rel "mutex", p8, p9 |
| {.mmi; (p8) cmp.leu p10, p11 = acc0, pr1_2 |
| (p9) cmp.ltu p10, p11 = acc0, pr1_2 |
| (p12) add acc0 = 1, acc0 |
| ;; |
| }{.mmi; st8 [rp] = acc0, 8 |
| (p12) cmpeqor p10, p0 = 0, acc0 |
| nop 1 |
| ;; |
| }{.mib; (p10) add r8 = 1, r8 |
| mov ar.lc = r2 |
| br.ret.sptk.many b0 |
| } |
| EPILOGUE() |
| ASM_END() |
