dnl PowerPC-64 mpn_addcnd_n/mpn_subcnd_n. dnl Copyright 1999, 2000, 2001, 2003, 2004, 2005, 2007, 2011, 2012 Free dnl Software Foundation, Inc. dnl This file is part of the GNU MP Library. dnl The GNU MP Library is free software; you can redistribute it and/or modify dnl it under the terms of the GNU Lesser General Public License as published dnl by the Free Software Foundation; either version 3 of the License, or (at dnl your option) any later version. 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 Lesser General Public dnl License for more details. dnl You should have received a copy of the GNU Lesser General Public License dnl along with the GNU MP Library. If not, see http://www.gnu.org/licenses/. include(`../config.m4') C cycles/limb C POWER3/PPC630 ? C POWER4/PPC970 2.25 C POWER5 ? C POWER6 3 C POWER7 ? C INPUT PARAMETERS define(`rp', `r3') define(`up', `r4') define(`vp', `r5') define(`n', `r6') define(`cnd', `r7') ifdef(`OPERATION_addcnd_n',` define(ADDSUBC, adde) define(ADDSUB, addc) define(func, mpn_addcnd_n) define(GENRVAL, `addi r3, r3, 1') define(SETCBR, `addic r0, $1, -1') define(CLRCB, `addic r0, r0, 0') ') ifdef(`OPERATION_subcnd_n',` define(ADDSUBC, subfe) define(ADDSUB, subfc) define(func, mpn_subcnd_n) define(GENRVAL, `neg r3, r3') define(SETCBR, `subfic r0, $1, 0') define(CLRCB, `addic r0, r1, -1') ') MULFUNC_PROLOGUE(mpn_addcnd_n mpn_subcnd_n) ASM_START() PROLOGUE(func) std r31, -8(r1) std r30, -16(r1) std r29, -24(r1) std r28, -32(r1) std r27, -40(r1) subfic cnd, cnd, 0 subfe cnd, cnd, cnd rldicl. r0, r6, 0,62 C r0 = n & 3, set cr0 cmpdi cr6, r0, 2 addi r6, r6, 3 C compute count... srdi r6, r6, 2 C ...for ctr mtctr r6 C copy count into ctr beq cr0, L(b00) blt cr6, L(b01) beq cr6, L(b10) L(b11): ld r8, 0(up) C load s1 limb ld r9, 0(vp) C load s2 limb ld r10, 8(up) C load s1 limb ld r11, 8(vp) C load s2 limb ld r12, 16(up) C load s1 limb addi up, up, 24 ld r0, 16(vp) C load s2 limb addi vp, vp, 24 and r9, r9, cnd and r11, r11, cnd and r0, r0, cnd ADDSUB r29, r9, r8 ADDSUBC r30, r11, r10 ADDSUBC r31, r0, r12 std r29, 0(rp) std r30, 8(rp) std r31, 16(rp) addi rp, rp, 24 bdnz L(go) b L(ret) L(b01): ld r12, 0(up) C load s1 limb addi up, up, 8 ld r0, 0(vp) C load s2 limb addi vp, vp, 8 and r0, r0, cnd ADDSUB r31, r0, r12 C add std r31, 0(rp) addi rp, rp, 8 bdnz L(go) b L(ret) L(b10): ld r10, 0(up) C load s1 limb ld r11, 0(vp) C load s2 limb ld r12, 8(up) C load s1 limb addi up, up, 16 ld r0, 8(vp) C load s2 limb addi vp, vp, 16 and r11, r11, cnd and r0, r0, cnd ADDSUB r30, r11, r10 C add ADDSUBC r31, r0, r12 C add std r30, 0(rp) std r31, 8(rp) addi rp, rp, 16 bdnz L(go) b L(ret) L(b00): CLRCB C clear/set cy L(go): ld r6, 0(up) C load s1 limb ld r27, 0(vp) C load s2 limb ld r8, 8(up) C load s1 limb ld r9, 8(vp) C load s2 limb ld r10, 16(up) C load s1 limb ld r11, 16(vp) C load s2 limb ld r12, 24(up) C load s1 limb ld r0, 24(vp) C load s2 limb and r27, r27, cnd and r9, r9, cnd and r11, r11, cnd and r0, r0, cnd bdz L(end) addi up, up, 32 addi vp, vp, 32 L(top): ADDSUBC r28, r27, r6 ld r6, 0(up) C load s1 limb ld r27, 0(vp) C load s2 limb ADDSUBC r29, r9, r8 ld r8, 8(up) C load s1 limb ld r9, 8(vp) C load s2 limb ADDSUBC r30, r11, r10 ld r10, 16(up) C load s1 limb ld r11, 16(vp) C load s2 limb ADDSUBC r31, r0, r12 ld r12, 24(up) C load s1 limb ld r0, 24(vp) C load s2 limb std r28, 0(rp) addi up, up, 32 std r29, 8(rp) addi vp, vp, 32 std r30, 16(rp) std r31, 24(rp) addi rp, rp, 32 and r27, r27, cnd and r9, r9, cnd and r11, r11, cnd and r0, r0, cnd bdnz L(top) C decrement ctr and loop back L(end): ADDSUBC r28, r27, r6 ADDSUBC r29, r9, r8 ADDSUBC r30, r11, r10 ADDSUBC r31, r0, r12 std r28, 0(rp) std r29, 8(rp) std r30, 16(rp) std r31, 24(rp) L(ret): ld r31, -8(r1) ld r30, -16(r1) ld r29, -24(r1) ld r28, -32(r1) ld r27, -40(r1) subfe r3, r0, r0 C -cy GENRVAL blr EPILOGUE()