/***************************************************************************
Copyright (c) 2013-2016, 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
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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.
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its contributors may be used to endorse or promote products
derived from this software without specific prior written permission.
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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*****************************************************************************/

/**************************************************************************************
* 2016/03/23 Werner Saar (wernsaar@googlemail.com)
* 	 BLASTEST 		: OK
* 	 CTEST			: OK
* 	 TEST			: OK
*	 LAPACK-TEST		: OK
**************************************************************************************/


#define HAVE_KERNEL_4 1
static void zaxpy_kernel_4( BLASLONG n, FLOAT *x, FLOAT *y , FLOAT *alpha) __attribute__ ((noinline));

static void zaxpy_kernel_4( BLASLONG n, FLOAT *x, FLOAT *y, FLOAT *alpha)
{


	BLASLONG i = n;
	BLASLONG o16 = 16;
	BLASLONG o32 = 32;
	BLASLONG o48 = 48;
	FLOAT *x1=x;
	FLOAT *y1=y;
	FLOAT *y2=y+1;
	BLASLONG pre = 384;

#if !defined(CONJ)
        FLOAT mvec[2] = { -1.0, 1.0 };
#else
        FLOAT mvec[2] = { 1.0, -1.0 };
#endif


	__asm__  __volatile__
	(

	"lxsdx		34, 0 , %4			    \n\t"	// alpha_r
	"lxsdx		35, %5, %4			    \n\t"	// alpha_i
	"xxspltd	32, 34, 0			    \n\t"
	"xxspltd	33, 35, 0			    \n\t"

	"lxvd2x		36, 0,	%9			    \n\t"	// mvec

#if !defined(CONJ)
        "xvmuldp         33, 33  , 36               	    \n\t"	// alpha_i * mvec
#else
        "xvmuldp         32, 32  , 36               	    \n\t"	// alpha_r * mvec
#endif

	"addi		%8, %8, -8			    \n\t"

	"dcbt		%2, %10				    \n\t"
	"dcbt		%3, %10				    \n\t"


	"lxvd2x		40, 0, %2			    \n\t"       // x0
	"lxvd2x		41, %5, %2			    \n\t"	// x1
	"lxvd2x		42, %6, %2			    \n\t"	// x2
	"lxvd2x		43, %7, %2			    \n\t"	// x3

	"lxvd2x		48, 0, %3			    \n\t"	// y0
	"lxvd2x		49, %5, %3			    \n\t"	// y1
	"lxvd2x		50, %6, %3			    \n\t"	// y2
	"lxvd2x		51, %7, %3			    \n\t"	// y3

	"xxswapd	56, 40				    \n\t"	// exchange real and imag part
	"xxswapd	57, 41				    \n\t"	// exchange real and imag part
	"xxswapd	58, 42				    \n\t"	// exchange real and imag part
	"xxswapd	59, 43				    \n\t"	// exchange real and imag part

	"addi		%2, %2, 64			    \n\t"
	"addi		%3, %3, 64			    \n\t"

	"lxvd2x		44, 0, %2			    \n\t"	// x4
	"lxvd2x		45, %5, %2			    \n\t"	// x5
	"lxvd2x		46, %6, %2			    \n\t"	// x6
	"lxvd2x		47, %7, %2			    \n\t"	// x7

	"lxvd2x		52, 0, %3			    \n\t"	// y4
	"lxvd2x		53, %5, %3			    \n\t"	// y5
	"lxvd2x		54, %6, %3			    \n\t"	// y6
	"lxvd2x		55, %7, %3			    \n\t"	// y7

	"xxswapd	60, 44				    \n\t"	// exchange real and imag part
	"xxswapd	61, 45				    \n\t"	// exchange real and imag part
	"xxswapd	62, 46				    \n\t"	// exchange real and imag part
	"xxswapd	63, 47				    \n\t"	// exchange real and imag part

	"addi		%2, %2, 64			    \n\t"
	"addi		%3, %3, 64			    \n\t"

	"addic.		%0 , %0	, -8  	 	             \n\t"
	"ble		2f		             	     \n\t"

	".align 5				            \n\t"
	"1:				                    \n\t"

	"dcbt		%2, %10				    \n\t"
	"dcbt		%3, %10				    \n\t"

	"xvmaddadp	48, 40, 32		    	    \n\t"	// alpha_r * x0_r , alpha_r * x0_i
	"xvmaddadp	49, 41, 32		    	    \n\t"
	"lxvd2x		40, 0, %2			    \n\t"       // x0
	"lxvd2x		41, %5, %2			    \n\t"	// x1
	"xvmaddadp	50, 42, 32		    	    \n\t"
	"xvmaddadp	51, 43, 32		    	    \n\t"
	"lxvd2x		42, %6, %2			    \n\t"	// x2
	"lxvd2x		43, %7, %2			    \n\t"	// x3

	"xvmaddadp	52, 44, 32		    	    \n\t"
	"addi		%2, %2, 64			    \n\t"
	"xvmaddadp	53, 45, 32		    	    \n\t"
	"lxvd2x		44, 0, %2			    \n\t"	// x4
	"lxvd2x		45, %5, %2			    \n\t"	// x5
	"xvmaddadp	54, 46, 32		    	    \n\t"
	"xvmaddadp	55, 47, 32		    	    \n\t"
	"lxvd2x		46, %6, %2			    \n\t"	// x6
	"lxvd2x		47, %7, %2			    \n\t"	// x7

	"xvmaddadp	48, 56, 33		    	    \n\t"	// alpha_i * x0_i , alpha_i * x0_r
	"addi		%2, %2, 64			    \n\t"
	"xvmaddadp	49, 57, 33		    	    \n\t"
	"xvmaddadp	50, 58, 33		    	    \n\t"
	"xvmaddadp	51, 59, 33		    	    \n\t"

	"xvmaddadp	52, 60, 33		    	    \n\t"
	"xvmaddadp	53, 61, 33		    	    \n\t"
	"xvmaddadp	54, 62, 33		    	    \n\t"
	"xvmaddadp	55, 63, 33		    	    \n\t"

	"stxvd2x	48,  0, %8			    \n\t"
	"stxvd2x	49, %5, %8			    \n\t"
	"stxvd2x	50, %6, %8			    \n\t"
	"stxvd2x	51, %7, %8			    \n\t"

	"addi		%8, %8, 64			    \n\t"

	"stxvd2x	52,  0, %8			    \n\t"
	"stxvd2x	53, %5, %8			    \n\t"
	"stxvd2x	54, %6, %8			    \n\t"
	"stxvd2x	55, %7, %8			    \n\t"

	"addi		%8, %8, 64			    \n\t"

	"xxswapd	56, 40				    \n\t"	// exchange real and imag part
	"xxswapd	57, 41				    \n\t"	// exchange real and imag part
	"lxvd2x		48, 0, %3			    \n\t"	// y0
	"lxvd2x		49, %5, %3			    \n\t"	// y1
	"xxswapd	58, 42				    \n\t"	// exchange real and imag part
	"xxswapd	59, 43				    \n\t"	// exchange real and imag part
	"lxvd2x		50, %6, %3			    \n\t"	// y2
	"lxvd2x		51, %7, %3			    \n\t"	// y3

	"xxswapd	60, 44				    \n\t"	// exchange real and imag part
	"addi		%3, %3, 64			    \n\t"
	"xxswapd	61, 45				    \n\t"	// exchange real and imag part
	"lxvd2x		52, 0, %3			    \n\t"	// y4
	"lxvd2x		53, %5, %3			    \n\t"	// y5
	"xxswapd	62, 46				    \n\t"	// exchange real and imag part
	"xxswapd	63, 47				    \n\t"	// exchange real and imag part
	"lxvd2x		54, %6, %3			    \n\t"	// y6
	"lxvd2x		55, %7, %3			    \n\t"	// y7

	"addi		%3, %3, 64			    \n\t"

	"addic.		%0 , %0	, -8  	 	             \n\t"
	"bgt		1b		             	     \n\t"

	"2:						     \n\t"

	"xvmaddadp	48, 40, 32		    	    \n\t"	// alpha_r * x0_r , alpha_r * x0_i
	"xvmaddadp	49, 41, 32		    	    \n\t"
	"xvmaddadp	50, 42, 32		    	    \n\t"
	"xvmaddadp	51, 43, 32		    	    \n\t"

	"xvmaddadp	52, 44, 32		    	    \n\t"
	"xvmaddadp	53, 45, 32		    	    \n\t"
	"xvmaddadp	54, 46, 32		    	    \n\t"
	"xvmaddadp	55, 47, 32		    	    \n\t"

	"xvmaddadp	48, 56, 33		    	    \n\t"	// alpha_i * x0_i , alpha_i * x0_r
	"xvmaddadp	49, 57, 33		    	    \n\t"
	"xvmaddadp	50, 58, 33		    	    \n\t"
	"xvmaddadp	51, 59, 33		    	    \n\t"

	"xvmaddadp	52, 60, 33		    	    \n\t"
	"xvmaddadp	53, 61, 33		    	    \n\t"
	"xvmaddadp	54, 62, 33		    	    \n\t"
	"xvmaddadp	55, 63, 33		    	    \n\t"


	"stxvd2x	48,  0, %8			    \n\t"
	"stxvd2x	49, %5, %8			    \n\t"
	"stxvd2x	50, %6, %8			    \n\t"
	"stxvd2x	51, %7, %8			    \n\t"

	"addi		%8, %8, 64			    \n\t"

	"stxvd2x	52,  0, %8			    \n\t"
	"stxvd2x	53, %5, %8			    \n\t"
	"stxvd2x	54, %6, %8			    \n\t"
	"stxvd2x	55, %7, %8			    \n\t"

	"addi		%8, %8, 64			    \n\t"

	:
        : 
          "r" (i),	// 0	
	  "r" (n),  	// 1
          "r" (x1),     // 2
          "r" (y1),     // 3
          "r" (alpha),  // 4
	  "r" (o16),	// 5
	  "r" (o32),	// 6
	  "r" (o48),    // 7
	  "r" (y2),     // 8
	  "r" (mvec),   // 9
	  "r" (pre)	// 10
	: "cr0", "%0", "%2" , "%3", "%8", "memory"
	);

}