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/*********************************************************************/
/* 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 PENTIUM
#define P 88
#endif
#ifndef P
#define P 400
#endif
#define STACK 16
#define ARGS 24
#define NLDA 0 + STACK(%esp)
#define XP 4 + STACK(%esp)
#define MIN_M 8 + STACK(%esp)
#define J 12 + STACK(%esp)
#define IS 16 + STACK(%esp)
#define M 4 + STACK + ARGS(%esp)
#define N 8 + STACK + ARGS(%esp)
#define K 12 + STACK + ARGS(%esp)
#ifdef DOUBLE
#define ALPHA_R 16 + STACK + ARGS(%esp)
#define ALPHA_I 24 + STACK + ARGS(%esp)
#define A 32 + STACK + ARGS(%esp)
#define LDA 36 + STACK + ARGS(%esp)
#define X 40 + STACK + ARGS(%esp)
#define INCX 44 + STACK + ARGS(%esp)
#define Y 48 + STACK + ARGS(%esp)
#define INCY 52 + STACK + ARGS(%esp)
#define BUFFER 56 + STACK + ARGS(%esp)
#else
#define ALPHA_R 16 + STACK + ARGS(%esp)
#define ALPHA_I 20 + STACK + ARGS(%esp)
#define A 24 + STACK + ARGS(%esp)
#define LDA 28 + STACK + ARGS(%esp)
#define X 32 + STACK + ARGS(%esp)
#define INCX 36 + STACK + ARGS(%esp)
#define Y 40 + STACK + ARGS(%esp)
#define INCY 44 + STACK + ARGS(%esp)
#define BUFFER 48 + STACK + ARGS(%esp)
#endif
PROLOGUE
subl $ARGS, %esp
pushl %ebp
pushl %edi
pushl %esi
pushl %ebx
PROFCODE
FLD ALPHA_I
FLD ALPHA_R
movl X, %edi # X
movl $0, IS
movl M, %ebx
movl N, %ecx
testl %ebx, %ebx
jle .L79
testl %ecx, %ecx
jle .L79
movl INCX, %esi
addl %esi, %esi
leal (,%esi,SIZE), %esi
movl %esi, INCX
movl INCY, %esi
addl %esi, %esi
leal (, %esi, SIZE), %esi
movl %esi, INCY
movl LDA, %ebx
movl N, %eax
imull %ebx, %eax
movl $P, %esi
subl %eax, %esi
leal (, %esi, SIZE), %esi
addl %esi, %esi
movl %esi, NLDA
leal (,%ebx,SIZE), %esi
addl %esi, %esi
movl %esi, LDA
ALIGN_2
.L32:
movl IS, %esi
movl $P, %edx
movl M, %eax
subl %esi, %eax
cmpl %edx, %eax
#ifdef PENTIUM
jle .L33
movl %edx, %eax
.L33:
#else
cmovg %edx, %eax
#endif
movl %eax, MIN_M
movl IS, %ecx
addl %ecx, %ecx
leal (%edi,%ecx,SIZE), %ecx # xp = x + is
movl INCX, %ebx
movl %ecx, XP
cmpl $2 * SIZE, %ebx
je .L34
movl BUFFER, %esi
movl MIN_M, %eax
movl %esi, XP
sarl $1, %eax
jle .L35
ALIGN_3
.L36:
FLD 0 * SIZE(%edi)
FLD 1 * SIZE(%edi)
addl %ebx,%edi # x += incx
FLD 0 * SIZE(%edi)
FLD 1 * SIZE(%edi)
addl %ebx,%edi # x += incx
FST 3 * SIZE(%esi)
FST 2 * SIZE(%esi)
FST 1 * SIZE(%esi)
FST 0 * SIZE(%esi)
addl $4 * SIZE, %esi # xp += 4
decl %eax
jg .L36
ALIGN_3
.L35:
movl MIN_M, %eax
andl $1,%eax
jle .L34
FLD 0 * SIZE(%edi)
FLD 1 * SIZE(%edi)
addl %ebx,%edi # x += incx
FST 1 * SIZE(%esi)
FST 0 * SIZE(%esi)
ALIGN_3
/* Main Routine */
.L34:
movl Y, %ebp # coffset = y
movl N, %ecx
testl %ecx, %ecx
jle .L60
ALIGN_2
.L61:
movl A, %ebx # a_offset = a
fldz # ct1 = ZERO
movl LDA, %edx
fldz # ct1 = ZERO
addl %ebx, %edx
fldz # ct1 = ZERO
movl %edx, A
fldz # ct1 = ZERO
movl XP, %esi
FLD (%esi) # bt1 = *(b_offset + 0)
movl MIN_M, %eax
sarl $1, %eax
jle .L64
ALIGN_3
#define PRESIZE 8
.L65:
#ifdef HAS_PREFETCH
prefetcht0 PRESIZE * SIZE(%ebx)
prefetcht0 PRESIZE * SIZE(%esi)
#endif
FLD 0 * SIZE(%ebx) # at1 = *(a_offset + 0)
fmul %st(1), %st # at1 *= bt1
faddp %st, %st(2) # ct1 += at1
FMUL 1 * SIZE(%ebx) # bt1 *= *(a_offset + 1)
#ifndef CONJ
faddp %st, %st(2) # ct2 += bt1
#else
fsubrp %st, %st(2) # ct2 -= bt1
#endif
FLD 1 * SIZE(%esi) # bt1 = *(b_offset + 1)
FLD 0 * SIZE(%ebx) # at1 = *(a_offset + 0)
fmul %st(1), %st # at1 *= bt1
faddp %st, %st(4) # ct3 += at1
FMUL 1 * SIZE(%ebx) # bt1 *= *(a_offset + 1)
faddp %st, %st(4) # ct4 += bt1
FLD 2 * SIZE(%esi) # bt1 = *(b_offset + 1)
FLD 2 * SIZE(%ebx) # at1 = *(a_offset + 0)
fmul %st(1), %st # at1 *= bt1
faddp %st, %st(2) # ct1 += at1
FMUL 3 * SIZE(%ebx) # bt1 *= *(a_offset + 1)
#ifndef CONJ
faddp %st, %st(2) # ct2 += bt1
#else
fsubrp %st, %st(2) # ct2 -= bt1
#endif
FLD 3 * SIZE(%esi) # bt1 = *(b_offset + 1)
FLD 2 * SIZE(%ebx) # at1 = *(a_offset + 0)
fmul %st(1), %st # at1 *= bt1
faddp %st, %st(4) # ct3 += at1
FMUL 3 * SIZE(%ebx) # bt1 *= *(a_offset + 1)
faddp %st, %st(4) # ct4 += bt1
FLD 4 * SIZE(%esi) # bt1 = *(b_offset + 1)
addl $4 * SIZE, %esi
addl $4 * SIZE, %ebx
decl %eax
jg .L65
ALIGN_3
.L64:
movl MIN_M, %eax
andl $1, %eax
jle .L70
ALIGN_3
.L71:
FLD 0 * SIZE(%ebx) # at1 = *(a_offset + 0)
fmul %st(1), %st # at1 *= bt1
faddp %st, %st(2) # ct1 += at1
FMUL 1 * SIZE(%ebx) # bt1 *= *(a_offset + 1)
#ifndef CONJ
faddp %st, %st(2) # ct2 += bt1
#else
fsubrp %st, %st(2) # ct2 -= bt1
#endif
FLD 1 * SIZE(%esi) # bt1 = *(b_offset + 1)
FLD 0 * SIZE(%ebx) # at1 = *(a_offset + 0)
fmul %st(1), %st # at1 *= bt1
faddp %st, %st(4) # ct3 += at1
FMUL 1 * SIZE(%ebx) # bt1 *= *(a_offset + 1)
faddp %st, %st(4) # ct4 += bt1
fldz
ALIGN_3
.L70:
#ifndef C_SUN
ffreep %st(0)
#else
.byte 0xdf
.byte 0xc0
#endif
#ifndef XCONJ
#ifndef CONJ
fsubp %st, %st(3)
faddp %st, %st(1)
#else
faddp %st, %st(3)
faddp %st, %st(1)
#endif
#else
#ifndef CONJ
faddp %st, %st(3)
fsubp %st, %st(1)
#else
fsubp %st, %st(3)
fsubp %st, %st(1)
#endif
#endif
fld %st(0) # ct4 = ct2
fmul %st(4), %st
fld %st(2)
fmul %st(4), %st
fsubp %st, %st(1)
FADD 0 * SIZE(%ebp)
FST 0 * SIZE(%ebp)
fmul %st(2), %st
fxch %st(1)
fmul %st(3), %st
faddp %st, %st(1)
FADD 1 * SIZE(%ebp)
FST 1 * SIZE(%ebp)
addl INCY, %ebp
decl %ecx
jg .L61
ALIGN_3
.L60:
movl A, %ebx
addl NLDA, %ebx
movl %ebx, A
addl $P, IS
movl M, %esi
cmpl %esi, IS
jl .L32
ALIGN_3
.L79:
#ifndef C_SUN
ffreep %st(0)
ffreep %st(0)
#else
.byte 0xdf
.byte 0xc0
.byte 0xdf
.byte 0xc0
#endif
popl %ebx
popl %esi
popl %edi
popl %ebp
addl $ARGS, %esp
ret
EPILOGUE
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