/*************************************************************************** Copyright (c) 2023, The OpenBLAS Project 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. 3. Neither the name of the OpenBLAS project nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "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 OPENBLAS PROJECT 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. *****************************************************************************/ #define ASSEMBLER #include "common.h" #define N $r4 #define X $r5 #define INCX $r6 #define I $r12 #define t1 $r13 #define t2 $r15 #define t3 $r18 #define t4 $r16 #define i0 $r17 #define i1 $r14 #define TEMP $r19 #define x1 $vr9 #define x2 $vr10 #define x3 $vr11 #define x4 $vr12 #define VX0 $vr13 #define VX1 $vr14 #define VM0 $vr15 #define VM1 $vr16 #define VI0 $vr20 #define VI1 $vr21 #define VI2 $vr22 #define VI3 $vr8 #define VI4 $vr19 #define VT0 $vr23 PROLOGUE li.d i0, 0 bge $r0, N, .L999 bge $r0, INCX, .L999 li.d TEMP, 1 slli.d TEMP, TEMP, BASE_SHIFT slli.d INCX, INCX, BASE_SHIFT bne INCX, TEMP, .L20 vld VM0, X, 0 #ifdef DOUBLE addi.d i0, i0, 1 srai.d I, N, 3 bge $r0, I, .L21 slli.d i0, i0, 1 //2 vreplgr2vr.d $vr17, i0 slli.d i0, i0, 1 //4 vreplgr2vr.d $vr18, i0 addi.d i0, i0, -7 vinsgr2vr.d VI1, i0, 0 //initialize the index value for vectorization addi.d i0, i0, 1 vinsgr2vr.d VI1, i0, 1 addi.d i0, i0, 3 vinsgr2vr.d VI0, i0, 0 //1 addi.d i0, i0, 1 vinsgr2vr.d VI0, i0, 1 //2 #else addi.w i0, i0, 1 srai.d I, N, 3 bge $r0, I, .L21 slli.w i0, i0, 2 //4 vreplgr2vr.w $vr17, i0 slli.w i0, i0, 1 //8 vreplgr2vr.w $vr18, i0 addi.w i0, i0, -15 vinsgr2vr.w VI1, i0, 0 //initialize the index value for vectorization addi.w i0, i0, 1 vinsgr2vr.w VI1, i0, 1 addi.w i0, i0, 1 vinsgr2vr.w VI1, i0, 2 addi.w i0, i0, 1 vinsgr2vr.w VI1, i0, 3 addi.w i0, i0, 5 vinsgr2vr.w VI0, i0, 0 //1 addi.w i0, i0, 1 vinsgr2vr.w VI0, i0, 1 //2 addi.w i0, i0, 1 vinsgr2vr.w VI0, i0, 2 //3 addi.w i0, i0, 1 vinsgr2vr.w VI0, i0, 3 //4 #endif .align 3 .L10: vld VX0, X, 0 * SIZE #ifdef DOUBLE vadd.d VI1, VI1, $vr18 vld VX1, X, 2 * SIZE vadd.d VI2, VI1, $vr17 VCMPLT VT0, VX0, VX1 vbitsel.v x1, VX0, VX1, VT0 vbitsel.v x2, VI1, VI2, VT0 vld VX0, X, 4 * SIZE vadd.d VI1, VI2, $vr17 vld VX1, X, 6 * SIZE vadd.d VI2, VI1, $vr17 VCMPLT VT0, VX0, VX1 addi.d I, I, -1 vbitsel.v x3, VX0, VX1, VT0 vbitsel.v x4, VI1, VI2, VT0 VCMPLT VT0, x1, x3 vbitsel.v x1, x1, x3, VT0 vbitsel.v x2, x2, x4, VT0 VCMPLT VT0, VM0, x1 addi.d X, X, 8 * SIZE vbitsel.v VM0, VM0, x1, VT0 vbitsel.v VI0, VI0, x2, VT0 #else vadd.w VI1, VI1, $vr18 vld VX1, X, 4 * SIZE vadd.w VI2, VI1, $vr17 VCMPLT VT0, VX0, VX1 addi.d I, I, -1 vbitsel.v VM1, VX0, VX1, VT0 vbitsel.v VI2, VI1, VI2, VT0 VCMPLT VT0, VM0, VM1 addi.d X, X, 8 * SIZE vbitsel.v VM0, VM0, VM1, VT0 vbitsel.v VI0, VI0, VI2, VT0 #endif blt $r0, I, .L10 .align 3 .L15: #ifdef DOUBLE vreplvei.d VI1, VI0, 0 vreplvei.d VI2, VI0, 1 vreplvei.d x1, VM0, 0 vreplvei.d x2, VM0, 1 fcmp.ceq.d $fcc0, $f10, $f9 bceqz $fcc0, .L26 VCMPLT VT0, VI1, VI2 vbitsel.v VI0, VI2, VI1, VT0 b .L27 #else vreplvei.w VI1, VI0, 0 vreplvei.w VI2, VI0, 1 vreplvei.w VI3, VI0, 2 vreplvei.w VI4, VI0, 3 vreplvei.w x1, VM0, 0 vreplvei.w x2, VM0, 1 vreplvei.w x3, VM0, 2 vreplvei.w x4, VM0, 3 VCMPLT VT0, x1, x2 vbitsel.v VM1, x1, x2, VT0 vbitsel.v $vr17, VI1, VI2, VT0 VCMPLT VT0, x3, x4 vbitsel.v VM0, x3, x4, VT0 vbitsel.v $vr18, VI3, VI4, VT0 VCMPLT VT0, VM0, VM1 vbitsel.v VM0, VM0, VM1, VT0 vbitsel.v VI0, $vr18, $vr17, VT0 fcmp.ceq.d $fcc0, $f15, $f9 bceqz $fcc0, .L26 VCMPLT VT0, VI1, VI0 vbitsel.v VI0, VI0, VI1, VT0 b .L26 #endif .align 3 .L20: // INCX!=1 move TEMP, X #ifdef DOUBLE addi.d i0, i0, 1 ld.d t1, TEMP, 0 * SIZE add.d TEMP, TEMP, INCX vinsgr2vr.d VM0, t1, 0 srai.d I, N, 3 bge $r0, I, .L21 ld.d t2, TEMP, 0 * SIZE add.d TEMP, TEMP, INCX vinsgr2vr.d VM0, t2, 1 slli.d i0, i0, 1 //2 vreplgr2vr.d $vr17, i0 slli.d i0, i0, 1 //4 vreplgr2vr.d $vr18, i0 addi.d i0, i0, -7 vinsgr2vr.d VI1, i0, 0 //initialize the index value for vectorization addi.d i0, i0, 1 vinsgr2vr.d VI1, i0, 1 addi.d i0, i0, 3 vinsgr2vr.d VI0, i0, 0 //1 addi.d i0, i0, 1 vinsgr2vr.d VI0, i0, 1 //2 #else addi.w i0, i0, 1 ld.w t1, TEMP, 0 * SIZE add.d TEMP, TEMP, INCX vinsgr2vr.w VM0, t1, 0 srai.d I, N, 3 bge $r0, I, .L21 ld.w t2, TEMP, 0 * SIZE add.d TEMP, TEMP, INCX ld.w t3, TEMP, 0 * SIZE add.d TEMP, TEMP, INCX ld.w t4, TEMP, 0 * SIZE add.d TEMP, TEMP, INCX vinsgr2vr.w VM0, t2, 1 vinsgr2vr.w VM0, t3, 2 vinsgr2vr.w VM0, t4, 3 slli.w i0, i0, 2 //4 vreplgr2vr.w $vr17, i0 slli.w i0, i0, 1 //8 vreplgr2vr.w $vr18, i0 addi.w i0, i0, -15 vinsgr2vr.w VI1, i0, 0 //initialize the index value for vectorization addi.w i0, i0, 1 vinsgr2vr.w VI1, i0, 1 addi.w i0, i0, 1 vinsgr2vr.w VI1, i0, 2 addi.w i0, i0, 1 vinsgr2vr.w VI1, i0, 3 addi.w i0, i0, 5 vinsgr2vr.w VI0, i0, 0 //1 addi.w i0, i0, 1 vinsgr2vr.w VI0, i0, 1 //2 addi.w i0, i0, 1 vinsgr2vr.w VI0, i0, 2 //3 addi.w i0, i0, 1 vinsgr2vr.w VI0, i0, 3 //4 #endif .align 3 .L24: #ifdef DOUBLE ld.d t1, X, 0 * SIZE add.d X, X, INCX ld.d t2, X, 0 * SIZE add.d X, X, INCX vinsgr2vr.d VX0, t1, 0 vinsgr2vr.d VX0, t2, 1 vadd.d VI1, VI1, $vr18 ld.d t1, X, 0 * SIZE add.d X, X, INCX ld.d t2, X, 0 * SIZE add.d X, X, INCX vinsgr2vr.d VX1, t1, 0 vinsgr2vr.d VX1, t2, 1 vadd.d VI2, VI1, $vr17 VCMPLT VT0, VX0, VX1 vbitsel.v x1, VX0, VX1, VT0 vbitsel.v x2, VI1, VI2, VT0 ld.d t1, X, 0 * SIZE add.d X, X, INCX ld.d t2, X, 0 * SIZE add.d X, X, INCX vinsgr2vr.d VX0, t1, 0 vinsgr2vr.d VX0, t2, 1 vadd.d VI1, VI2, $vr17 ld.d t1, X, 0 * SIZE add.d X, X, INCX ld.d t2, X, 0 * SIZE add.d X, X, INCX vinsgr2vr.d VX1, t1, 0 vinsgr2vr.d VX1, t2, 1 vadd.d VI2, VI1, $vr17 VCMPLT VT0, VX0, VX1 vbitsel.v x3, VX0, VX1, VT0 vbitsel.v x4, VI1, VI2, VT0 VCMPLT VT0, x1, x3 vbitsel.v x1, x1, x3, VT0 vbitsel.v x2, x2, x4, VT0 VCMPLT VT0, VM0, x1 addi.d I, I, -1 vbitsel.v VM0, VM0, x1, VT0 vbitsel.v VI0, VI0, x2, VT0 #else ld.w t1, X, 0 * SIZE add.d X, X, INCX ld.w t2, X, 0 * SIZE add.d X, X, INCX ld.w t3, X, 0 * SIZE add.d X, X, INCX ld.w t4, X, 0 * SIZE add.d X, X, INCX vinsgr2vr.w VX0, t1, 0 vinsgr2vr.w VX0, t2, 1 vinsgr2vr.w VX0, t3, 2 vinsgr2vr.w VX0, t4, 3 vadd.w VI1, VI1, $vr18 ld.w t1, X, 0 * SIZE add.d X, X, INCX ld.w t2, X, 0 * SIZE add.d X, X, INCX ld.w t3, X, 0 * SIZE add.d X, X, INCX ld.w t4, X, 0 * SIZE add.d X, X, INCX vinsgr2vr.w VX1, t1, 0 vinsgr2vr.w VX1, t2, 1 vinsgr2vr.w VX1, t3, 2 vinsgr2vr.w VX1, t4, 3 vadd.w VI2, VI1, $vr17 VCMPLT VT0, VX0, VX1 addi.d I, I, -1 vbitsel.v VM1, VX0, VX1, VT0 vbitsel.v VI2, VI1, VI2, VT0 VCMPLT VT0, VM0, VM1 vbitsel.v VM0, VM0, VM1, VT0 vbitsel.v VI0, VI0, VI2, VT0 #endif blt $r0, I, .L24 .align 3 .L25: #ifdef DOUBLE vreplvei.d VI1, VI0, 0 vreplvei.d VI2, VI0, 1 vreplvei.d x1, VM0, 0 vreplvei.d x2, VM0, 1 fcmp.ceq.d $fcc0, $f10, $f9 bceqz $fcc0, .L26 VCMPLT VT0, VI1, VI2 vbitsel.v VI0, VI2, VI1, VT0 b .L27 #else vreplvei.w VI1, VI0, 0 vreplvei.w VI2, VI0, 1 vreplvei.w VI3, VI0, 2 vreplvei.w VI4, VI0, 3 vreplvei.w x1, VM0, 0 vreplvei.w x2, VM0, 1 vreplvei.w x3, VM0, 2 vreplvei.w x4, VM0, 3 vfcmp.clt.s VT0, x1, x2 vbitsel.v VM1, x1, x2, VT0 vbitsel.v $vr17, VI1, VI2, VT0 vfcmp.clt.s VT0, x3, x4 vbitsel.v VM0, x3, x4, VT0 vbitsel.v $vr18, VI3, VI4, VT0 vfcmp.clt.s VT0, VM0, VM1 vbitsel.v VM0, VM0, VM1, VT0 vbitsel.v VI0, $vr18, $vr17, VT0 fcmp.ceq.d $fcc0, $f15, $f9 bceqz $fcc0, .L26 vfcmp.clt.s VT0, VI1, VI0 vbitsel.v VI0, VI0, VI1, VT0 #endif .align 3 .L26: #ifdef DOUBLE VCMPLT VT0, x1, x2 vbitsel.v VM0, x1, x2, VT0 vbitsel.v VI0, VI1, VI2, VT0 #else fcmp.ceq.d $fcc0, $f15, $f10 bceqz $fcc0, .L27 VCMPLT VT0, VI2, VI0 vbitsel.v VI0, VI0, VI2, VT0 #endif .align 3 .L27: #ifndef DOUBLE fcmp.ceq.d $fcc0, $f15, $f11 bceqz $fcc0, .L28 VCMPLT VT0, VI3, VI0 vbitsel.v VI0, VI0, VI3, VT0 .align 3 .L28: fcmp.ceq.d $fcc0, $f15, $f12 bceqz $fcc0, .L29 VCMPLT VT0, VI4, VI0 vbitsel.v VI0, VI0, VI4, VT0 .align 3 .L29: #endif MTG i0, $f20 .align 3 .L21: //N<8 andi I, N, 7 bge $r0, I, .L999 srai.d i1, N, 3 slli.d i1, i1, 3 addi.d i1, i1, 1 //current index movgr2fr.d $f21, i1 movgr2fr.d $f20, i0 .align 3 .L22: fld.d $f9, X, 0 addi.d I, I, -1 CMPLT $fcc0, $f15, $f9 add.d X, X, INCX fsel $f15, $f15, $f9, $fcc0 fsel $f20, $f20, $f21, $fcc0 addi.d i1, i1, 1 movgr2fr.d $f21, i1 blt $r0, I, .L22 MTG i0, $f20 .align 3 .L999: move $r4, $r17 jirl $r0, $r1, 0x0 .align 3 EPILOGUE