/*- * Copyright (c) 2011 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Matt Thomas of 3am Software Foundry. * * 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 NETBSD FOUNDATION, INC. 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 FOUNDATION 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. */ #include #include "assym.h" RCSID("$NetBSD: spe_subr.S,v 1.4 2014/08/10 18:08:33 joerg Exp $") .text #ifndef __clang__ .machine e500x2 #endif /* * Lintstub: void vec_load_from_vreg(const struct vreg *); */ ENTRY(vec_load_from_vreg) /* * Load and initialize the accumulator. Don't care about trashing * r0's high half since we are about to load it. */ evldd %r0,(8 << 4)(%r3) evmra %r0,%r0 /* * SPEFSCR is in the trapframe. */ /* * Since the high part of the register is saved in vreg (because we * are loading it), and we know SPE is on (to load it), just load two * high parts at one time and merge appropriately. For each even-odd * register pair, the evldw will load high part for the even register * in the high 32 bits and the high part for the odd regiter in the * low 32 bits. * * The evmergelo will move the lower half of r0 to the high half of the * destination register and evmergehilo will merge the high half of r0 * and lower half of the other register. */ evldw %r0,(30 << 2)(%r3) evmergelo %r31,%r0,%r31; evmergehilo %r30,%r0,%r30 evldw %r0,(28 << 2)(%r3) evmergelo %r29,%r0,%r29; evmergehilo %r28,%r0,%r28 evldw %r0,(26 << 2)(%r3) evmergelo %r27,%r0,%r27; evmergehilo %r26,%r0,%r26 evldw %r0,(24 << 2)(%r3) evmergelo %r25,%r0,%r25; evmergehilo %r24,%r0,%r24 evldw %r0,(22 << 2)(%r3) evmergelo %r23,%r0,%r23; evmergehilo %r22,%r0,%r22 evldw %r0,(20 << 2)(%r3) evmergelo %r21,%r0,%r21; evmergehilo %r20,%r0,%r20 evldw %r0,(18 << 2)(%r3) evmergelo %r19,%r0,%r19; evmergehilo %r18,%r0,%r18 evldw %r0,(16 << 2)(%r3) evmergelo %r17,%r0,%r17; evmergehilo %r16,%r0,%r16 evldw %r0,(14 << 2)(%r3) evmergelo %r15,%r0,%r15; evmergehilo %r14,%r0,%r14 evldw %r0,(12 << 2)(%r3) evmergelo %r13,%r0,%r13; evmergehilo %r12,%r0,%r12 /* * Done with callee-saved registers. For caller-saved we can just * trash the register contents. So load the two words with the high * halves into the appropriate register and merge the half for the * next register into it. */ evldw %r10,(10 << 2)(%r3) evmergelo %r11,%r10,%r11 evldw %r8,(8 << 2)(%r3) evmergelo %r9,%r8,%r9 evldw %r6,(6 << 2)(%r3) evmergelo %r7,%r6,%r7 evldw %r4,(4 << 2)(%r3) evmergelo %r5,%r4,%r5 /* * R2 isn't a callee-saved, so load into r0 because we still need r3 */ evldw %r0,(2 << 2)(%r3) evmergelo %r3,%r0,%r3; evmergehilo %r2,%r0,%r2 evldd %r0,(0 << 2)(%r3) evmergelo %r1,%r0,%r1 /* why bother? */ blr END(vec_load_from_vreg) /* * Lintstub: void vec_unload_to_vreg(struct vreg *); */ ENTRY(vec_unload_to_vreg) evmergehi %r4,%r4,%r0; /* save r0's high part in lo r4 */ evmergehi %r0,%r0,%r1; evstdw %r0,(0 << 2)(%r3) evmergehi %r0,%r2,%r3; evstdw %r0,(2 << 2)(%r3) evmergehi %r0,%r4,%r5; evstdw %r0,(4 << 2)(%r3) evmergehi %r0,%r6,%r7; evstdw %r0,(6 << 2)(%r3) evmergehi %r0,%r8,%r9; evstdw %r0,(8 << 2)(%r3) evmergehi %r0,%r10,%r11; evstdw %r0,(10 << 2)(%r3) evmergehi %r0,%r12,%r13; evstdw %r0,(12 << 2)(%r3) evmergehi %r0,%r14,%r15; evstdw %r0,(14 << 2)(%r3) evmergehi %r0,%r16,%r17; evstdw %r0,(16 << 2)(%r3) evmergehi %r0,%r18,%r19; evstdw %r0,(18 << 2)(%r3) evmergehi %r0,%r20,%r21; evstdw %r0,(20 << 2)(%r3) evmergehi %r0,%r22,%r23; evstdw %r0,(22 << 2)(%r3) evmergehi %r0,%r24,%r25; evstdw %r0,(24 << 2)(%r3) evmergehi %r0,%r26,%r27; evstdw %r0,(26 << 2)(%r3) evmergehi %r0,%r28,%r29; evstdw %r0,(28 << 2)(%r3) evmergehi %r0,%r30,%r31; evstdw %r0,(30 << 2)(%r3) /* * Now save the accumulator. */ evxor %r0,%r0,%r0 /* zero r0 */ evaddumiaaw %r0,%r0 /* r0 = accum + r0 */ evstdd %r0,(8 << 4)(%r3) /* store it */ evmergelo %r0,%r4,%r0 /* retore r0's high half */ /* * The SPEFSCR will be restored when the exception returns. */ blr END(vec_unload_to_vreg)