dnl ARM mpn_and_n, mpn_andn_n. mpn_nand_n, etc, optimised for A15. dnl Contributed to the GNU project by Torbjörn Granlund. dnl Copyright 2013 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 cycles/limb C and andn ior xor nand iorn nior xnor C StrongARM ? ? C XScale ? ? C Cortex-A7 ? ? C Cortex-A8 ? ? C Cortex-A9 3.5 3.56 C Cortex-A15 1.27 1.64 C This is great A15 core register code, but it is a bit large. C We use FEEDIN_VARIANT 1 to save some space, but use 8-way unrolling. C Architecture requirements: C v5 - C v5t - C v5te ldrd strd C v6 - C v6t2 - C v7a - define(`FEEDIN_VARIANT', 1) C alternatives: 0 1 2 define(`UNROLL', 4x2) C alternatives: 4 4x2 define(`rp', `r0') define(`up', `r1') define(`vp', `r2') define(`n', `r3') define(`POSTOP') ifdef(`OPERATION_and_n',` define(`func', `mpn_and_n') define(`LOGOP', `and $1, $2, $3')') ifdef(`OPERATION_andn_n',` define(`func', `mpn_andn_n') define(`LOGOP', `bic $1, $2, $3')') ifdef(`OPERATION_nand_n',` define(`func', `mpn_nand_n') define(`POSTOP', `mvn $1, $1') define(`LOGOP', `and $1, $2, $3')') ifdef(`OPERATION_ior_n',` define(`func', `mpn_ior_n') define(`LOGOP', `orr $1, $2, $3')') ifdef(`OPERATION_iorn_n',` define(`func', `mpn_iorn_n') define(`POSTOP', `mvn $1, $1') define(`LOGOP', `bic $1, $3, $2')') ifdef(`OPERATION_nior_n',` define(`func', `mpn_nior_n') define(`POSTOP', `mvn $1, $1') define(`LOGOP', `orr $1, $2, $3')') ifdef(`OPERATION_xor_n',` define(`func', `mpn_xor_n') define(`LOGOP', `eor $1, $2, $3')') ifdef(`OPERATION_xnor_n',` define(`func', `mpn_xnor_n') define(`POSTOP', `mvn $1, $1') define(`LOGOP', `eor $1, $2, $3')') MULFUNC_PROLOGUE(mpn_and_n mpn_andn_n mpn_nand_n mpn_ior_n mpn_iorn_n mpn_nior_n mpn_xor_n mpn_xnor_n) ASM_START() PROLOGUE(func) push { r4-r9 } ifelse(FEEDIN_VARIANT,0,` ands r6, n, #3 mov n, n, lsr #2 beq L(b00a) tst r6, #1 beq L(bx0) ldr r5, [up], #4 ldr r7, [vp], #4 LOGOP( r9, r5, r7) POSTOP( r9) str r9, [rp], #4 tst r6, #2 beq L(b00) L(bx0): ldrd r4, r5, [up, #0] ldrd r6, r7, [vp, #0] sub rp, rp, #8 b L(lo) L(b00): tst n, n beq L(wd1) L(b00a):ldrd r4, r5, [up], #-8 ldrd r6, r7, [vp], #-8 sub rp, rp, #16 b L(mid) ') ifelse(FEEDIN_VARIANT,1,` and r6, n, #3 mov n, n, lsr #2 tst r6, #1 beq L(bx0) ldr r5, [up], #4 ldr r7, [vp], #4 LOGOP( r9, r5, r7) POSTOP( r9) str r9, [rp], #4 L(bx0): tst r6, #2 beq L(b00) ldrd r4, r5, [up, #0] ldrd r6, r7, [vp, #0] sub rp, rp, #8 b L(lo) L(b00): tst n, n beq L(wd1) ldrd r4, r5, [up], #-8 ldrd r6, r7, [vp], #-8 sub rp, rp, #16 b L(mid) ') ifelse(FEEDIN_VARIANT,2,` ands r6, n, #3 mov n, n, lsr #2 beq L(b00) cmp r6, #2 bcc L(b01) beq L(b10) L(b11): ldr r5, [up], #4 ldr r7, [vp], #4 LOGOP( r9, r5, r7) ldrd r4, r5, [up, #0] ldrd r6, r7, [vp, #0] POSTOP( r9) str r9, [rp], #-4 b L(lo) L(b00): ldrd r4, r5, [up], #-8 ldrd r6, r7, [vp], #-8 sub rp, rp, #16 b L(mid) L(b01): ldr r5, [up], #-4 ldr r7, [vp], #-4 LOGOP( r9, r5, r7) POSTOP( r9) str r9, [rp], #-12 tst n, n beq L(wd1) L(gt1): ldrd r4, r5, [up, #8] ldrd r6, r7, [vp, #8] b L(mid) L(b10): ldrd r4, r5, [up] ldrd r6, r7, [vp] sub rp, rp, #8 b L(lo) ') ALIGN(16) ifelse(UNROLL,4,` L(top): ldrd r4, r5, [up, #8] ldrd r6, r7, [vp, #8] POSTOP( r8) POSTOP( r9) strd r8, r9, [rp, #8] L(mid): LOGOP( r8, r4, r6) LOGOP( r9, r5, r7) ldrd r4, r5, [up, #16]! ldrd r6, r7, [vp, #16]! POSTOP( r8) POSTOP( r9) strd r8, r9, [rp, #16]! sub n, n, #1 L(lo): LOGOP( r8, r4, r6) LOGOP( r9, r5, r7) tst n, n bne L(top) ') ifelse(UNROLL,4x2,` L(top): ldrd r4, r5, [up, #8] ldrd r6, r7, [vp, #8] POSTOP( r8) POSTOP( r9) strd r8, r9, [rp, #8] L(mid): LOGOP( r8, r4, r6) LOGOP( r9, r5, r7) ldrd r4, r5, [up, #16] ldrd r6, r7, [vp, #16] POSTOP( r8) POSTOP( r9) strd r8, r9, [rp, #16] LOGOP( r8, r4, r6) LOGOP( r9, r5, r7) sub n, n, #2 tst n, n bmi L(dne) ldrd r4, r5, [up, #24] ldrd r6, r7, [vp, #24] POSTOP( r8) POSTOP( r9) strd r8, r9, [rp, #24] LOGOP( r8, r4, r6) LOGOP( r9, r5, r7) ldrd r4, r5, [up, #32]! ldrd r6, r7, [vp, #32]! POSTOP( r8) POSTOP( r9) strd r8, r9, [rp, #32]! L(lo): LOGOP( r8, r4, r6) LOGOP( r9, r5, r7) tst n, n bne L(top) ') L(end): POSTOP( r8) POSTOP( r9) strd r8, r9, [rp, #8] L(wd1): pop { r4-r9 } bx r14 ifelse(UNROLL,4x2,` L(dne): POSTOP( r8) POSTOP( r9) strd r8, r9, [rp, #24] pop { r4-r9 } bx r14 ') EPILOGUE()