/*********************************************************************/ /* Copyright 2009, 2010 The University of Texas at Austin. */ /* All rights reserved. */ /* */ /* Redistribution and use in source and binary forms, with or */ /* without modification, are permitted provided that the following */ /* conditions are met: */ /* */ /* 1. Redistributions of source code must retain the above */ /* copyright notice, this list of conditions and the following */ /* disclaimer. */ /* */ /* 2. Redistributions in binary form must reproduce the above */ /* copyright notice, this list of conditions and the following */ /* disclaimer in the documentation and/or other materials */ /* provided with the distribution. */ /* */ /* THIS SOFTWARE IS PROVIDED BY THE UNIVERSITY OF TEXAS AT */ /* AUSTIN ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, */ /* INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF */ /* MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE */ /* DISCLAIMED. IN NO EVENT SHALL THE UNIVERSITY OF TEXAS AT */ /* AUSTIN OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, */ /* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES */ /* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE */ /* GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR */ /* BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF */ /* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT */ /* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT */ /* OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE */ /* POSSIBILITY OF SUCH DAMAGE. */ /* */ /* The views and conclusions contained in the software and */ /* documentation are those of the authors and should not be */ /* interpreted as representing official policies, either expressed */ /* or implied, of The University of Texas at Austin. */ /*********************************************************************/ #define ASSEMBLER #include "common.h" #ifdef linux #ifndef __64BIT__ #define N r3 #define X r6 #define INCX r7 #define Y r8 #define INCY r9 #define INCXM1 r4 #define INCYM1 r5 #define PREA r10 #define YY r11 #else #define N r3 #define X r8 #define INCX r9 #define Y r10 #define INCY r4 #define INCXM1 r5 #define INCYM1 r6 #define PREA r7 #define YY r11 #endif #endif #if defined(_AIX) || defined(__APPLE__) #if !defined(__64BIT__) && defined(DOUBLE) #define N r3 #define X r10 #define INCX r4 #define Y r5 #define INCY r6 #define INCXM1 r7 #define INCYM1 r8 #define PREA r9 #define YY r11 #else #define N r3 #define X r8 #define INCX r9 #define Y r10 #define INCY r4 #define INCXM1 r5 #define INCYM1 r6 #define PREA r7 #define YY r11 #endif #endif #define ALPHA_R f24 #define ALPHA_I f25 #ifndef CONJ #define ADD1 FNMSUB #define ADD2 FMADD #else #define ADD1 FMADD #define ADD2 FNMSUB #endif #ifndef NEEDPARAM #define STACKSIZE 96 PROLOGUE PROFCODE addi SP, SP, -STACKSIZE li r0, 0 stfd f14, 0(SP) stfd f15, 8(SP) stfd f16, 16(SP) stfd f17, 24(SP) stfd f18, 32(SP) stfd f19, 40(SP) stfd f20, 48(SP) stfd f21, 56(SP) stfd f22, 64(SP) stfd f23, 72(SP) stfd f24, 80(SP) stfd f25, 88(SP) #if defined(linux) && defined(__64BIT__) ld INCY, 112 + STACKSIZE(SP) #endif #if defined(_AIX) || defined(__APPLE__) #ifdef __64BIT__ ld INCY, 112 + STACKSIZE(SP) #else #ifdef DOUBLE lwz INCX, 56 + STACKSIZE(SP) lwz Y, 60 + STACKSIZE(SP) lwz INCY, 64 + STACKSIZE(SP) #else lwz INCY, 56 + STACKSIZE(SP) #endif #endif #endif fmr ALPHA_R, f1 fmr ALPHA_I, f2 slwi INCX, INCX, ZBASE_SHIFT slwi INCY, INCY, ZBASE_SHIFT subi INCXM1, INCX, SIZE subi INCYM1, INCY, SIZE #ifdef L1_DUALFETCH li PREA, (L1_PREFETCHSIZE) / 2 #else li PREA, (L1_PREFETCHSIZE) #endif cmpwi cr0, N, 0 ble- LL(999) cmpwi cr0, INCX, 2 * SIZE bne- cr0, LL(100) cmpwi cr0, INCY, 2 * SIZE bne- cr0, LL(100) srawi. r0, N, 3 mtspr CTR, r0 beq- cr0, LL(50) .align 4 LFD f0, 0 * SIZE(X) LFD f1, 1 * SIZE(X) LFD f2, 2 * SIZE(X) LFD f3, 3 * SIZE(X) LFD f8, 0 * SIZE(Y) LFD f9, 1 * SIZE(Y) LFD f10, 2 * SIZE(Y) LFD f11, 3 * SIZE(Y) LFD f4, 4 * SIZE(X) LFD f5, 5 * SIZE(X) LFD f6, 6 * SIZE(X) LFD f7, 7 * SIZE(X) LFD f12, 4 * SIZE(Y) LFD f13, 5 * SIZE(Y) LFD f14, 6 * SIZE(Y) LFD f15, 7 * SIZE(Y) bdz LL(20) .align 4 LL(10): FMADD f16, ALPHA_R, f0, f8 FMADD f17, ALPHA_I, f0, f9 FMADD f18, ALPHA_R, f2, f10 FMADD f19, ALPHA_I, f2, f11 ADD1 f16, ALPHA_I, f1, f16 ADD2 f17, ALPHA_R, f1, f17 ADD1 f18, ALPHA_I, f3, f18 ADD2 f19, ALPHA_R, f3, f19 LFD f0, 8 * SIZE(X) LFD f1, 9 * SIZE(X) LFD f2, 10 * SIZE(X) LFD f3, 11 * SIZE(X) LFD f8, 8 * SIZE(Y) LFD f9, 9 * SIZE(Y) LFD f10, 10 * SIZE(Y) LFD f11, 11 * SIZE(Y) STFD f16, 0 * SIZE(Y) STFD f17, 1 * SIZE(Y) STFD f18, 2 * SIZE(Y) STFD f19, 3 * SIZE(Y) FMADD f20, ALPHA_R, f4, f12 FMADD f21, ALPHA_I, f4, f13 FMADD f22, ALPHA_R, f6, f14 FMADD f23, ALPHA_I, f6, f15 ADD1 f20, ALPHA_I, f5, f20 ADD2 f21, ALPHA_R, f5, f21 ADD1 f22, ALPHA_I, f7, f22 ADD2 f23, ALPHA_R, f7, f23 LFD f4, 12 * SIZE(X) LFD f5, 13 * SIZE(X) LFD f6, 14 * SIZE(X) LFD f7, 15 * SIZE(X) LFD f12, 12 * SIZE(Y) LFD f13, 13 * SIZE(Y) LFD f14, 14 * SIZE(Y) LFD f15, 15 * SIZE(Y) STFD f20, 4 * SIZE(Y) STFD f21, 5 * SIZE(Y) STFD f22, 6 * SIZE(Y) STFD f23, 7 * SIZE(Y) FMADD f16, ALPHA_R, f0, f8 FMADD f17, ALPHA_I, f0, f9 FMADD f18, ALPHA_R, f2, f10 FMADD f19, ALPHA_I, f2, f11 ADD1 f16, ALPHA_I, f1, f16 ADD2 f17, ALPHA_R, f1, f17 ADD1 f18, ALPHA_I, f3, f18 ADD2 f19, ALPHA_R, f3, f19 LFD f0, 16 * SIZE(X) LFD f1, 17 * SIZE(X) LFD f2, 18 * SIZE(X) LFD f3, 19 * SIZE(X) LFD f8, 16 * SIZE(Y) LFD f9, 17 * SIZE(Y) LFD f10, 18 * SIZE(Y) LFD f11, 19 * SIZE(Y) STFD f16, 8 * SIZE(Y) STFD f17, 9 * SIZE(Y) STFD f18, 10 * SIZE(Y) STFD f19, 11 * SIZE(Y) FMADD f20, ALPHA_R, f4, f12 FMADD f21, ALPHA_I, f4, f13 FMADD f22, ALPHA_R, f6, f14 FMADD f23, ALPHA_I, f6, f15 ADD1 f20, ALPHA_I, f5, f20 ADD2 f21, ALPHA_R, f5, f21 ADD1 f22, ALPHA_I, f7, f22 ADD2 f23, ALPHA_R, f7, f23 LFD f4, 20 * SIZE(X) LFD f5, 21 * SIZE(X) LFD f6, 22 * SIZE(X) LFD f7, 23 * SIZE(X) LFD f12, 20 * SIZE(Y) LFD f13, 21 * SIZE(Y) LFD f14, 22 * SIZE(Y) LFD f15, 23 * SIZE(Y) STFD f20, 12 * SIZE(Y) STFD f21, 13 * SIZE(Y) STFD f22, 14 * SIZE(Y) STFD f23, 15 * SIZE(Y) #ifndef POWER6 dcbtst Y, PREA #ifdef L1_DUALFETCH dcbt X, PREA #endif #endif addi X, X, 16 * SIZE addi Y, Y, 16 * SIZE #ifdef POWER6 dcbtst Y, PREA L1_PREFETCH X, PREA #endif bdnz LL(10) .align 4 LL(20): FMADD f16, ALPHA_R, f0, f8 FMADD f17, ALPHA_I, f0, f9 FMADD f18, ALPHA_R, f2, f10 FMADD f19, ALPHA_I, f2, f11 ADD1 f16, ALPHA_I, f1, f16 ADD2 f17, ALPHA_R, f1, f17 ADD1 f18, ALPHA_I, f3, f18 ADD2 f19, ALPHA_R, f3, f19 LFD f0, 8 * SIZE(X) LFD f1, 9 * SIZE(X) LFD f2, 10 * SIZE(X) LFD f3, 11 * SIZE(X) LFD f8, 8 * SIZE(Y) LFD f9, 9 * SIZE(Y) LFD f10, 10 * SIZE(Y) LFD f11, 11 * SIZE(Y) FMADD f20, ALPHA_R, f4, f12 FMADD f21, ALPHA_I, f4, f13 FMADD f22, ALPHA_R, f6, f14 FMADD f23, ALPHA_I, f6, f15 ADD1 f20, ALPHA_I, f5, f20 ADD2 f21, ALPHA_R, f5, f21 ADD1 f22, ALPHA_I, f7, f22 ADD2 f23, ALPHA_R, f7, f23 LFD f4, 12 * SIZE(X) LFD f5, 13 * SIZE(X) LFD f6, 14 * SIZE(X) LFD f7, 15 * SIZE(X) LFD f12, 12 * SIZE(Y) LFD f13, 13 * SIZE(Y) LFD f14, 14 * SIZE(Y) LFD f15, 15 * SIZE(Y) STFD f16, 0 * SIZE(Y) STFD f17, 1 * SIZE(Y) STFD f18, 2 * SIZE(Y) STFD f19, 3 * SIZE(Y) FMADD f16, ALPHA_R, f0, f8 FMADD f17, ALPHA_I, f0, f9 FMADD f18, ALPHA_R, f2, f10 FMADD f19, ALPHA_I, f2, f11 ADD1 f16, ALPHA_I, f1, f16 ADD2 f17, ALPHA_R, f1, f17 ADD1 f18, ALPHA_I, f3, f18 ADD2 f19, ALPHA_R, f3, f19 STFD f20, 4 * SIZE(Y) STFD f21, 5 * SIZE(Y) STFD f22, 6 * SIZE(Y) STFD f23, 7 * SIZE(Y) FMADD f20, ALPHA_R, f4, f12 FMADD f21, ALPHA_I, f4, f13 FMADD f22, ALPHA_R, f6, f14 FMADD f23, ALPHA_I, f6, f15 ADD1 f20, ALPHA_I, f5, f20 ADD2 f21, ALPHA_R, f5, f21 ADD1 f22, ALPHA_I, f7, f22 ADD2 f23, ALPHA_R, f7, f23 STFD f16, 8 * SIZE(Y) STFD f17, 9 * SIZE(Y) STFD f18, 10 * SIZE(Y) STFD f19, 11 * SIZE(Y) STFD f20, 12 * SIZE(Y) STFD f21, 13 * SIZE(Y) STFD f22, 14 * SIZE(Y) STFD f23, 15 * SIZE(Y) addi X, X, 16 * SIZE addi Y, Y, 16 * SIZE .align 4 LL(50): andi. r0, N, 7 mtspr CTR, r0 beq LL(999) .align 4 LL(60): LFD f0, 0 * SIZE(X) LFD f1, 1 * SIZE(X) LFD f8, 0 * SIZE(Y) LFD f9, 1 * SIZE(Y) FMADD f16, ALPHA_R, f0, f8 FMADD f17, ALPHA_I, f0, f9 ADD1 f16, ALPHA_I, f1, f16 ADD2 f17, ALPHA_R, f1, f17 STFD f16, 0 * SIZE(Y) STFD f17, 1 * SIZE(Y) addi X, X, 2 * SIZE addi Y, Y, 2 * SIZE bdnz LL(60) b LL(999) .align 4 LL(100): sub X, X, INCXM1 sub Y, Y, INCYM1 mr YY, Y srawi. r0, N, 3 mtspr CTR, r0 beq- LL(150) .align 4 LFDX f0, X, INCXM1 LFDUX f1, X, INCX LFDX f2, X, INCXM1 LFDUX f3, X, INCX LFDX f8, Y, INCYM1 LFDUX f9, Y, INCY LFDX f10, Y, INCYM1 LFDUX f11, Y, INCY LFDX f4, X, INCXM1 LFDUX f5, X, INCX LFDX f6, X, INCXM1 LFDUX f7, X, INCX LFDX f12, Y, INCYM1 LFDUX f13, Y, INCY LFDX f14, Y, INCYM1 LFDUX f15, Y, INCY bdz LL(120) .align 4 LL(110): FMADD f16, ALPHA_R, f0, f8 FMADD f17, ALPHA_I, f0, f9 FMADD f18, ALPHA_R, f2, f10 FMADD f19, ALPHA_I, f2, f11 ADD1 f16, ALPHA_I, f1, f16 ADD2 f17, ALPHA_R, f1, f17 ADD1 f18, ALPHA_I, f3, f18 ADD2 f19, ALPHA_R, f3, f19 LFDX f0, X, INCXM1 LFDUX f1, X, INCX LFDX f2, X, INCXM1 LFDUX f3, X, INCX LFDX f8, Y, INCYM1 LFDUX f9, Y, INCY LFDX f10, Y, INCYM1 LFDUX f11, Y, INCY FMADD f20, ALPHA_R, f4, f12 FMADD f21, ALPHA_I, f4, f13 FMADD f22, ALPHA_R, f6, f14 FMADD f23, ALPHA_I, f6, f15 ADD1 f20, ALPHA_I, f5, f20 ADD2 f21, ALPHA_R, f5, f21 ADD1 f22, ALPHA_I, f7, f22 ADD2 f23, ALPHA_R, f7, f23 LFDX f4, X, INCXM1 LFDUX f5, X, INCX LFDX f6, X, INCXM1 LFDUX f7, X, INCX LFDX f12, Y, INCYM1 LFDUX f13, Y, INCY LFDX f14, Y, INCYM1 LFDUX f15, Y, INCY STFDX f16, YY, INCYM1 STFDUX f17, YY, INCY STFDX f18, YY, INCYM1 STFDUX f19, YY, INCY FMADD f16, ALPHA_R, f0, f8 FMADD f17, ALPHA_I, f0, f9 FMADD f18, ALPHA_R, f2, f10 FMADD f19, ALPHA_I, f2, f11 ADD1 f16, ALPHA_I, f1, f16 ADD2 f17, ALPHA_R, f1, f17 ADD1 f18, ALPHA_I, f3, f18 ADD2 f19, ALPHA_R, f3, f19 LFDX f0, X, INCXM1 LFDUX f1, X, INCX LFDX f2, X, INCXM1 LFDUX f3, X, INCX LFDX f8, Y, INCYM1 LFDUX f9, Y, INCY LFDX f10, Y, INCYM1 LFDUX f11, Y, INCY STFDX f20, YY, INCYM1 STFDUX f21, YY, INCY STFDX f22, YY, INCYM1 STFDUX f23, YY, INCY FMADD f20, ALPHA_R, f4, f12 FMADD f21, ALPHA_I, f4, f13 FMADD f22, ALPHA_R, f6, f14 FMADD f23, ALPHA_I, f6, f15 ADD1 f20, ALPHA_I, f5, f20 ADD2 f21, ALPHA_R, f5, f21 ADD1 f22, ALPHA_I, f7, f22 ADD2 f23, ALPHA_R, f7, f23 LFDX f4, X, INCXM1 LFDUX f5, X, INCX LFDX f6, X, INCXM1 LFDUX f7, X, INCX LFDX f12, Y, INCYM1 LFDUX f13, Y, INCY LFDX f14, Y, INCYM1 LFDUX f15, Y, INCY STFDX f16, YY, INCYM1 STFDUX f17, YY, INCY STFDX f18, YY, INCYM1 STFDUX f19, YY, INCY STFDX f20, YY, INCYM1 STFDUX f21, YY, INCY STFDX f22, YY, INCYM1 STFDUX f23, YY, INCY bdnz LL(110) .align 4 LL(120): FMADD f16, ALPHA_R, f0, f8 FMADD f17, ALPHA_I, f0, f9 FMADD f18, ALPHA_R, f2, f10 FMADD f19, ALPHA_I, f2, f11 ADD1 f16, ALPHA_I, f1, f16 ADD2 f17, ALPHA_R, f1, f17 ADD1 f18, ALPHA_I, f3, f18 ADD2 f19, ALPHA_R, f3, f19 LFDX f0, X, INCXM1 LFDUX f1, X, INCX LFDX f2, X, INCXM1 LFDUX f3, X, INCX LFDX f8, Y, INCYM1 LFDUX f9, Y, INCY LFDX f10, Y, INCYM1 LFDUX f11, Y, INCY FMADD f20, ALPHA_R, f4, f12 FMADD f21, ALPHA_I, f4, f13 FMADD f22, ALPHA_R, f6, f14 FMADD f23, ALPHA_I, f6, f15 ADD1 f20, ALPHA_I, f5, f20 ADD2 f21, ALPHA_R, f5, f21 ADD1 f22, ALPHA_I, f7, f22 ADD2 f23, ALPHA_R, f7, f23 LFDX f4, X, INCXM1 LFDUX f5, X, INCX LFDX f6, X, INCXM1 LFDUX f7, X, INCX LFDX f12, Y, INCYM1 LFDUX f13, Y, INCY LFDX f14, Y, INCYM1 LFDUX f15, Y, INCY STFDX f16, YY, INCYM1 STFDUX f17, YY, INCY STFDX f18, YY, INCYM1 STFDUX f19, YY, INCY FMADD f16, ALPHA_R, f0, f8 FMADD f17, ALPHA_I, f0, f9 FMADD f18, ALPHA_R, f2, f10 FMADD f19, ALPHA_I, f2, f11 ADD1 f16, ALPHA_I, f1, f16 ADD2 f17, ALPHA_R, f1, f17 ADD1 f18, ALPHA_I, f3, f18 ADD2 f19, ALPHA_R, f3, f19 STFDX f20, YY, INCYM1 STFDUX f21, YY, INCY STFDX f22, YY, INCYM1 STFDUX f23, YY, INCY FMADD f20, ALPHA_R, f4, f12 FMADD f21, ALPHA_I, f4, f13 FMADD f22, ALPHA_R, f6, f14 FMADD f23, ALPHA_I, f6, f15 ADD1 f20, ALPHA_I, f5, f20 ADD2 f21, ALPHA_R, f5, f21 ADD1 f22, ALPHA_I, f7, f22 ADD2 f23, ALPHA_R, f7, f23 STFDX f16, YY, INCYM1 STFDUX f17, YY, INCY STFDX f18, YY, INCYM1 STFDUX f19, YY, INCY STFDX f20, YY, INCYM1 STFDUX f21, YY, INCY STFDX f22, YY, INCYM1 STFDUX f23, YY, INCY .align 4 LL(150): andi. r0, N, 7 mtspr CTR, r0 beq LL(999) .align 4 LL(160): LFDX f0, X, INCXM1 LFDUX f1, X, INCX LFDX f8, Y, INCYM1 LFDUX f9, Y, INCY FMADD f16, ALPHA_R, f0, f8 FMADD f17, ALPHA_I, f0, f9 ADD1 f16, ALPHA_I, f1, f16 ADD2 f17, ALPHA_R, f1, f17 STFDX f16, YY, INCYM1 STFDUX f17, YY, INCY bdnz LL(160) .align 4 LL(999): lfd f14, 0(SP) lfd f15, 8(SP) lfd f16, 16(SP) lfd f17, 24(SP) lfd f18, 32(SP) lfd f19, 40(SP) lfd f20, 48(SP) lfd f21, 56(SP) lfd f22, 64(SP) lfd f23, 72(SP) lfd f24, 80(SP) lfd f25, 88(SP) addi SP, SP, STACKSIZE blr EPILOGUE #endif