amd/blis
1
0
Fork 0
mirror of https://github.com/amd/blis.git synced 2026-05-05 06:51:11 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
29e6245816760b1bd4ac738d7d3e11a9d9d13473
blis/ref_kernels/1m/bli_packm_cxk_rih_ref.c
Field G. Van Zee 4fa4cb0734 Trivial comment header updates. 
Details:
- Removed four trailing spaces after "BLIS" that occurs in most files'
  commented-out license headers.
- Added UT copyright lines to some files. (These files previously had
  only AMD copyright lines but were contributed to by both UT and AMD.)
- In some files' copyright lines, expanded 'The University of Texas' to
  'The University of Texas at Austin'.
- Fixed various typos/misspellings in some license headers.
2018-08-29 18:06:41 -05:00

2588 lines
112 KiB
C
Raw Blame History

/*
BLIS
An object-based framework for developing high-performance BLAS-like
libraries.
Copyright (C) 2014, The University of Texas at Austin
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
- Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
- 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.
- Neither the name of The University of Texas at Austin 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 COPYRIGHT
HOLDER 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 "blis.h"
#undef GENTFUNCCO
#define GENTFUNCCO( ctype, ctype_r, ch, chr, opname, arch, suf ) \
\
void PASTEMAC3(ch,opname,arch,suf) \
( \
conj_t conja, \
pack_t schema, \
dim_t n, \
void* restrict kappa, \
void* restrict a, inc_t inca, inc_t lda, \
void* restrict p, inc_t ldp, \
cntx_t* restrict cntx \
) \
{ \
const inc_t inca2 = 2 * inca; \
const inc_t lda2 = 2 * lda; \
\
ctype* kappa_cast = kappa; \
ctype* restrict alpha1 = a; \
ctype_r* restrict alpha1_r = ( ctype_r* )a; \
ctype_r* restrict alpha1_i = ( ctype_r* )a + 1; \
ctype_r* restrict pi1_r = ( ctype_r* )p; \
\
\
if ( bli_is_ro_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
/* This works regardless of conja since we are only copying
the real part. */ \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_r + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 1*inca2), *(pi1_r + 1) ); \
\
alpha1_r += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else if ( bli_is_io_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else /* if ( bli_is_rpi_packed( schema ) ) */ \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
}
INSERT_GENTFUNCCO_BASIC2( packm_2xk_rih, BLIS_CNAME_INFIX, BLIS_REF_SUFFIX )
#undef GENTFUNCCO
#define GENTFUNCCO( ctype, ctype_r, ch, chr, opname, arch, suf ) \
\
void PASTEMAC3(ch,opname,arch,suf) \
( \
conj_t conja, \
pack_t schema, \
dim_t n, \
void* restrict kappa, \
void* restrict a, inc_t inca, inc_t lda, \
void* restrict p, inc_t ldp, \
cntx_t* restrict cntx \
) \
{ \
const inc_t inca2 = 2 * inca; \
const inc_t lda2 = 2 * lda; \
\
ctype* kappa_cast = kappa; \
ctype* restrict alpha1 = a; \
ctype_r* restrict alpha1_r = ( ctype_r* )a; \
ctype_r* restrict alpha1_i = ( ctype_r* )a + 1; \
ctype_r* restrict pi1_r = ( ctype_r* )p; \
\
\
if ( bli_is_ro_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
/* This works regardless of conja since we are only copying
the real part. */ \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_r + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 3*inca2), *(pi1_r + 3) ); \
\
alpha1_r += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else if ( bli_is_io_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else /* if ( bli_is_rpi_packed( schema ) ) */ \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
}
INSERT_GENTFUNCCO_BASIC2( packm_4xk_rih, BLIS_CNAME_INFIX, BLIS_REF_SUFFIX )
#undef GENTFUNCCO
#define GENTFUNCCO( ctype, ctype_r, ch, chr, opname, arch, suf ) \
\
void PASTEMAC3(ch,opname,arch,suf) \
( \
conj_t conja, \
pack_t schema, \
dim_t n, \
void* restrict kappa, \
void* restrict a, inc_t inca, inc_t lda, \
void* restrict p, inc_t ldp, \
cntx_t* restrict cntx \
) \
{ \
const inc_t inca2 = 2 * inca; \
const inc_t lda2 = 2 * lda; \
\
ctype* kappa_cast = kappa; \
ctype* restrict alpha1 = a; \
ctype_r* restrict alpha1_r = ( ctype_r* )a; \
ctype_r* restrict alpha1_i = ( ctype_r* )a + 1; \
ctype_r* restrict pi1_r = ( ctype_r* )p; \
\
\
if ( bli_is_ro_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
/* This works regardless of conja since we are only copying
the real part. */ \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_r + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 5*inca2), *(pi1_r + 5) ); \
\
alpha1_r += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else if ( bli_is_io_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else /* if ( bli_is_rpi_packed( schema ) ) */ \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
}
INSERT_GENTFUNCCO_BASIC2( packm_6xk_rih, BLIS_CNAME_INFIX, BLIS_REF_SUFFIX )
#undef GENTFUNCCO
#define GENTFUNCCO( ctype, ctype_r, ch, chr, opname, arch, suf ) \
\
void PASTEMAC3(ch,opname,arch,suf) \
( \
conj_t conja, \
pack_t schema, \
dim_t n, \
void* restrict kappa, \
void* restrict a, inc_t inca, inc_t lda, \
void* restrict p, inc_t ldp, \
cntx_t* restrict cntx \
) \
{ \
const inc_t inca2 = 2 * inca; \
const inc_t lda2 = 2 * lda; \
\
ctype* kappa_cast = kappa; \
ctype* restrict alpha1 = a; \
ctype_r* restrict alpha1_r = ( ctype_r* )a; \
ctype_r* restrict alpha1_i = ( ctype_r* )a + 1; \
ctype_r* restrict pi1_r = ( ctype_r* )p; \
\
\
if ( bli_is_ro_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
/* This works regardless of conja since we are only copying
the real part. */ \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_r + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 7*inca2), *(pi1_r + 7) ); \
\
alpha1_r += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else if ( bli_is_io_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else /* if ( bli_is_rpi_packed( schema ) ) */ \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
}
INSERT_GENTFUNCCO_BASIC2( packm_8xk_rih, BLIS_CNAME_INFIX, BLIS_REF_SUFFIX )
#undef GENTFUNCCO
#define GENTFUNCCO( ctype, ctype_r, ch, chr, opname, arch, suf ) \
\
void PASTEMAC3(ch,opname,arch,suf) \
( \
conj_t conja, \
pack_t schema, \
dim_t n, \
void* restrict kappa, \
void* restrict a, inc_t inca, inc_t lda, \
void* restrict p, inc_t ldp, \
cntx_t* restrict cntx \
) \
{ \
const inc_t inca2 = 2 * inca; \
const inc_t lda2 = 2 * lda; \
\
ctype* kappa_cast = kappa; \
ctype* restrict alpha1 = a; \
ctype_r* restrict alpha1_r = ( ctype_r* )a; \
ctype_r* restrict alpha1_i = ( ctype_r* )a + 1; \
ctype_r* restrict pi1_r = ( ctype_r* )p; \
\
\
if ( bli_is_ro_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
/* This works regardless of conja since we are only copying
the real part. */ \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_r + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 9*inca2), *(pi1_r + 9) ); \
\
alpha1_r += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else if ( bli_is_io_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else /* if ( bli_is_rpi_packed( schema ) ) */ \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 8*inca2), -*(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 9*inca2), -*(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 8*inca2), *(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 9*inca2), *(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
}
INSERT_GENTFUNCCO_BASIC2( packm_10xk_rih, BLIS_CNAME_INFIX, BLIS_REF_SUFFIX )
#undef GENTFUNCCO
#define GENTFUNCCO( ctype, ctype_r, ch, chr, opname, arch, suf ) \
\
void PASTEMAC3(ch,opname,arch,suf) \
( \
conj_t conja, \
pack_t schema, \
dim_t n, \
void* restrict kappa, \
void* restrict a, inc_t inca, inc_t lda, \
void* restrict p, inc_t ldp, \
cntx_t* restrict cntx \
) \
{ \
const inc_t inca2 = 2 * inca; \
const inc_t lda2 = 2 * lda; \
\
ctype* kappa_cast = kappa; \
ctype* restrict alpha1 = a; \
ctype_r* restrict alpha1_r = ( ctype_r* )a; \
ctype_r* restrict alpha1_i = ( ctype_r* )a + 1; \
ctype_r* restrict pi1_r = ( ctype_r* )p; \
\
\
if ( bli_is_ro_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
/* This works regardless of conja since we are only copying
the real part. */ \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_r + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( *(alpha1_r +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( *(alpha1_r +11*inca2), *(pi1_r +11) ); \
\
alpha1_r += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else if ( bli_is_io_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +11*inca2), *(pi1_r +11) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( *(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( *(alpha1_i +11*inca2), *(pi1_r +11) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else /* if ( bli_is_rpi_packed( schema ) ) */ \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 8*inca2), -*(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 9*inca2), -*(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +10*inca2), -*(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +11*inca2), -*(alpha1_i +11*inca2), *(pi1_r +11) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 8*inca2), *(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 9*inca2), *(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +10*inca2), *(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +11*inca2), *(alpha1_i +11*inca2), *(pi1_r +11) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
}
INSERT_GENTFUNCCO_BASIC2( packm_12xk_rih, BLIS_CNAME_INFIX, BLIS_REF_SUFFIX )
#undef GENTFUNCCO
#define GENTFUNCCO( ctype, ctype_r, ch, chr, opname, arch, suf ) \
\
void PASTEMAC3(ch,opname,arch,suf) \
( \
conj_t conja, \
pack_t schema, \
dim_t n, \
void* restrict kappa, \
void* restrict a, inc_t inca, inc_t lda, \
void* restrict p, inc_t ldp, \
cntx_t* restrict cntx \
) \
{ \
const inc_t inca2 = 2 * inca; \
const inc_t lda2 = 2 * lda; \
\
ctype* kappa_cast = kappa; \
ctype* restrict alpha1 = a; \
ctype_r* restrict alpha1_r = ( ctype_r* )a; \
ctype_r* restrict alpha1_i = ( ctype_r* )a + 1; \
ctype_r* restrict pi1_r = ( ctype_r* )p; \
\
\
if ( bli_is_ro_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
/* This works regardless of conja since we are only copying
the real part. */ \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_r + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( *(alpha1_r +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( *(alpha1_r +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,copys)( *(alpha1_r +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,copys)( *(alpha1_r +13*inca2), *(pi1_r +13) ); \
\
alpha1_r += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else if ( bli_is_io_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +13*inca2), *(pi1_r +13) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( *(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( *(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,copys)( *(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,copys)( *(alpha1_i +13*inca2), *(pi1_r +13) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else /* if ( bli_is_rpi_packed( schema ) ) */ \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 8*inca2), -*(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 9*inca2), -*(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +10*inca2), -*(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +11*inca2), -*(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +12*inca2), -*(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +13*inca2), -*(alpha1_i +13*inca2), *(pi1_r +13) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 8*inca2), *(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 9*inca2), *(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +10*inca2), *(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +11*inca2), *(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +12*inca2), *(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +13*inca2), *(alpha1_i +13*inca2), *(pi1_r +13) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
}
INSERT_GENTFUNCCO_BASIC2( packm_14xk_rih, BLIS_CNAME_INFIX, BLIS_REF_SUFFIX )
#undef GENTFUNCCO
#define GENTFUNCCO( ctype, ctype_r, ch, chr, opname, arch, suf ) \
\
void PASTEMAC3(ch,opname,arch,suf) \
( \
conj_t conja, \
pack_t schema, \
dim_t n, \
void* restrict kappa, \
void* restrict a, inc_t inca, inc_t lda, \
void* restrict p, inc_t ldp, \
cntx_t* restrict cntx \
) \
{ \
const inc_t inca2 = 2 * inca; \
const inc_t lda2 = 2 * lda; \
\
ctype* kappa_cast = kappa; \
ctype* restrict alpha1 = a; \
ctype_r* restrict alpha1_r = ( ctype_r* )a; \
ctype_r* restrict alpha1_i = ( ctype_r* )a + 1; \
ctype_r* restrict pi1_r = ( ctype_r* )p; \
\
\
if ( bli_is_ro_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
/* This works regardless of conja since we are only copying
the real part. */ \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_r + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( *(alpha1_r +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( *(alpha1_r +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,copys)( *(alpha1_r +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,copys)( *(alpha1_r +13*inca2), *(pi1_r +13) ); \
PASTEMAC(chr,copys)( *(alpha1_r +14*inca2), *(pi1_r +14) ); \
PASTEMAC(chr,copys)( *(alpha1_r +15*inca2), *(pi1_r +15) ); \
\
alpha1_r += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else if ( bli_is_io_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +13*inca2), *(pi1_r +13) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +14*inca2), *(pi1_r +14) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +15*inca2), *(pi1_r +15) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( *(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( *(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,copys)( *(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,copys)( *(alpha1_i +13*inca2), *(pi1_r +13) ); \
PASTEMAC(chr,copys)( *(alpha1_i +14*inca2), *(pi1_r +14) ); \
PASTEMAC(chr,copys)( *(alpha1_i +15*inca2), *(pi1_r +15) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else /* if ( bli_is_rpi_packed( schema ) ) */ \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 8*inca2), -*(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 9*inca2), -*(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +10*inca2), -*(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +11*inca2), -*(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +12*inca2), -*(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +13*inca2), -*(alpha1_i +13*inca2), *(pi1_r +13) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +14*inca2), -*(alpha1_i +14*inca2), *(pi1_r +14) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +15*inca2), -*(alpha1_i +15*inca2), *(pi1_r +15) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 8*inca2), *(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 9*inca2), *(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +10*inca2), *(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +11*inca2), *(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +12*inca2), *(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +13*inca2), *(alpha1_i +13*inca2), *(pi1_r +13) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +14*inca2), *(alpha1_i +14*inca2), *(pi1_r +14) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +15*inca2), *(alpha1_i +15*inca2), *(pi1_r +15) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
}
INSERT_GENTFUNCCO_BASIC2( packm_16xk_rih, BLIS_CNAME_INFIX, BLIS_REF_SUFFIX )
#undef GENTFUNCCO
#define GENTFUNCCO( ctype, ctype_r, ch, chr, opname, arch, suf ) \
\
void PASTEMAC3(ch,opname,arch,suf) \
( \
conj_t conja, \
pack_t schema, \
dim_t n, \
void* restrict kappa, \
void* restrict a, inc_t inca, inc_t lda, \
void* restrict p, inc_t ldp, \
cntx_t* restrict cntx \
) \
{ \
const inc_t inca2 = 2 * inca; \
const inc_t lda2 = 2 * lda; \
\
ctype* kappa_cast = kappa; \
ctype* restrict alpha1 = a; \
ctype_r* restrict alpha1_r = ( ctype_r* )a; \
ctype_r* restrict alpha1_i = ( ctype_r* )a + 1; \
ctype_r* restrict pi1_r = ( ctype_r* )p; \
\
\
if ( bli_is_ro_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
/* This works regardless of conja since we are only copying
the real part. */ \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_r + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( *(alpha1_r + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( *(alpha1_r +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( *(alpha1_r +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,copys)( *(alpha1_r +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,copys)( *(alpha1_r +13*inca2), *(pi1_r +13) ); \
PASTEMAC(chr,copys)( *(alpha1_r +14*inca2), *(pi1_r +14) ); \
PASTEMAC(chr,copys)( *(alpha1_r +15*inca2), *(pi1_r +15) ); \
PASTEMAC(chr,copys)( *(alpha1_r +16*inca2), *(pi1_r +16) ); \
PASTEMAC(chr,copys)( *(alpha1_r +17*inca2), *(pi1_r +17) ); \
PASTEMAC(chr,copys)( *(alpha1_r +18*inca2), *(pi1_r +18) ); \
PASTEMAC(chr,copys)( *(alpha1_r +19*inca2), *(pi1_r +19) ); \
PASTEMAC(chr,copys)( *(alpha1_r +20*inca2), *(pi1_r +20) ); \
PASTEMAC(chr,copys)( *(alpha1_r +21*inca2), *(pi1_r +21) ); \
PASTEMAC(chr,copys)( *(alpha1_r +22*inca2), *(pi1_r +22) ); \
PASTEMAC(chr,copys)( *(alpha1_r +23*inca2), *(pi1_r +23) ); \
PASTEMAC(chr,copys)( *(alpha1_r +24*inca2), *(pi1_r +24) ); \
PASTEMAC(chr,copys)( *(alpha1_r +25*inca2), *(pi1_r +25) ); \
PASTEMAC(chr,copys)( *(alpha1_r +26*inca2), *(pi1_r +26) ); \
PASTEMAC(chr,copys)( *(alpha1_r +27*inca2), *(pi1_r +27) ); \
PASTEMAC(chr,copys)( *(alpha1_r +28*inca2), *(pi1_r +28) ); \
PASTEMAC(chr,copys)( *(alpha1_r +29*inca2), *(pi1_r +29) ); \
\
alpha1_r += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +16*inca), *(pi1_r +16) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +17*inca), *(pi1_r +17) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +18*inca), *(pi1_r +18) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +19*inca), *(pi1_r +19) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +20*inca), *(pi1_r +20) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +21*inca), *(pi1_r +21) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +22*inca), *(pi1_r +22) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +23*inca), *(pi1_r +23) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +24*inca), *(pi1_r +24) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +25*inca), *(pi1_r +25) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +26*inca), *(pi1_r +26) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +27*inca), *(pi1_r +27) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +28*inca), *(pi1_r +28) ); \
PASTEMAC(ch,scal2jros)( *kappa_cast, *(alpha1 +29*inca), *(pi1_r +29) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +16*inca), *(pi1_r +16) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +17*inca), *(pi1_r +17) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +18*inca), *(pi1_r +18) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +19*inca), *(pi1_r +19) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +20*inca), *(pi1_r +20) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +21*inca), *(pi1_r +21) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +22*inca), *(pi1_r +22) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +23*inca), *(pi1_r +23) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +24*inca), *(pi1_r +24) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +25*inca), *(pi1_r +25) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +26*inca), *(pi1_r +26) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +27*inca), *(pi1_r +27) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +28*inca), *(pi1_r +28) ); \
PASTEMAC(ch,scal2ros)( *kappa_cast, *(alpha1 +29*inca), *(pi1_r +29) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else if ( bli_is_io_packed( schema ) ) \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( -*(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +13*inca2), *(pi1_r +13) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +14*inca2), *(pi1_r +14) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +15*inca2), *(pi1_r +15) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +16*inca2), *(pi1_r +16) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +17*inca2), *(pi1_r +17) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +18*inca2), *(pi1_r +18) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +19*inca2), *(pi1_r +19) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +20*inca2), *(pi1_r +20) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +21*inca2), *(pi1_r +21) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +22*inca2), *(pi1_r +22) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +23*inca2), *(pi1_r +23) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +24*inca2), *(pi1_r +24) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +25*inca2), *(pi1_r +25) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +26*inca2), *(pi1_r +26) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +27*inca2), *(pi1_r +27) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +28*inca2), *(pi1_r +28) ); \
PASTEMAC(chr,copys)( -*(alpha1_i +29*inca2), *(pi1_r +29) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,copys)( *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,copys)( *(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,copys)( *(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,copys)( *(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,copys)( *(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,copys)( *(alpha1_i +13*inca2), *(pi1_r +13) ); \
PASTEMAC(chr,copys)( *(alpha1_i +14*inca2), *(pi1_r +14) ); \
PASTEMAC(chr,copys)( *(alpha1_i +15*inca2), *(pi1_r +15) ); \
PASTEMAC(chr,copys)( *(alpha1_i +16*inca2), *(pi1_r +16) ); \
PASTEMAC(chr,copys)( *(alpha1_i +17*inca2), *(pi1_r +17) ); \
PASTEMAC(chr,copys)( *(alpha1_i +18*inca2), *(pi1_r +18) ); \
PASTEMAC(chr,copys)( *(alpha1_i +19*inca2), *(pi1_r +19) ); \
PASTEMAC(chr,copys)( *(alpha1_i +20*inca2), *(pi1_r +20) ); \
PASTEMAC(chr,copys)( *(alpha1_i +21*inca2), *(pi1_r +21) ); \
PASTEMAC(chr,copys)( *(alpha1_i +22*inca2), *(pi1_r +22) ); \
PASTEMAC(chr,copys)( *(alpha1_i +23*inca2), *(pi1_r +23) ); \
PASTEMAC(chr,copys)( *(alpha1_i +24*inca2), *(pi1_r +24) ); \
PASTEMAC(chr,copys)( *(alpha1_i +25*inca2), *(pi1_r +25) ); \
PASTEMAC(chr,copys)( *(alpha1_i +26*inca2), *(pi1_r +26) ); \
PASTEMAC(chr,copys)( *(alpha1_i +27*inca2), *(pi1_r +27) ); \
PASTEMAC(chr,copys)( *(alpha1_i +28*inca2), *(pi1_r +28) ); \
PASTEMAC(chr,copys)( *(alpha1_i +29*inca2), *(pi1_r +29) ); \
\
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +16*inca), *(pi1_r +16) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +17*inca), *(pi1_r +17) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +18*inca), *(pi1_r +18) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +19*inca), *(pi1_r +19) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +20*inca), *(pi1_r +20) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +21*inca), *(pi1_r +21) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +22*inca), *(pi1_r +22) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +23*inca), *(pi1_r +23) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +24*inca), *(pi1_r +24) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +25*inca), *(pi1_r +25) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +26*inca), *(pi1_r +26) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +27*inca), *(pi1_r +27) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +28*inca), *(pi1_r +28) ); \
PASTEMAC(ch,scal2jios)( *kappa_cast, *(alpha1 +29*inca), *(pi1_r +29) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +16*inca), *(pi1_r +16) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +17*inca), *(pi1_r +17) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +18*inca), *(pi1_r +18) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +19*inca), *(pi1_r +19) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +20*inca), *(pi1_r +20) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +21*inca), *(pi1_r +21) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +22*inca), *(pi1_r +22) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +23*inca), *(pi1_r +23) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +24*inca), *(pi1_r +24) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +25*inca), *(pi1_r +25) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +26*inca), *(pi1_r +26) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +27*inca), *(pi1_r +27) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +28*inca), *(pi1_r +28) ); \
PASTEMAC(ch,scal2ios)( *kappa_cast, *(alpha1 +29*inca), *(pi1_r +29) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
else /* if ( bli_is_rpi_packed( schema ) ) */ \
{ \
if ( PASTEMAC(ch,eq1)( *kappa_cast ) ) \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), -*(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), -*(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), -*(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), -*(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), -*(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), -*(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), -*(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), -*(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 8*inca2), -*(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 9*inca2), -*(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +10*inca2), -*(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +11*inca2), -*(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +12*inca2), -*(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +13*inca2), -*(alpha1_i +13*inca2), *(pi1_r +13) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +14*inca2), -*(alpha1_i +14*inca2), *(pi1_r +14) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +15*inca2), -*(alpha1_i +15*inca2), *(pi1_r +15) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +16*inca2), -*(alpha1_i +16*inca2), *(pi1_r +16) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +17*inca2), -*(alpha1_i +17*inca2), *(pi1_r +17) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +18*inca2), -*(alpha1_i +18*inca2), *(pi1_r +18) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +19*inca2), -*(alpha1_i +19*inca2), *(pi1_r +19) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +20*inca2), -*(alpha1_i +20*inca2), *(pi1_r +20) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +21*inca2), -*(alpha1_i +21*inca2), *(pi1_r +21) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +22*inca2), -*(alpha1_i +22*inca2), *(pi1_r +22) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +23*inca2), -*(alpha1_i +23*inca2), *(pi1_r +23) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +24*inca2), -*(alpha1_i +24*inca2), *(pi1_r +24) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +25*inca2), -*(alpha1_i +25*inca2), *(pi1_r +25) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +26*inca2), -*(alpha1_i +26*inca2), *(pi1_r +26) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +27*inca2), -*(alpha1_i +27*inca2), *(pi1_r +27) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +28*inca2), -*(alpha1_i +28*inca2), *(pi1_r +28) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +29*inca2), -*(alpha1_i +29*inca2), *(pi1_r +29) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(chr,add3s)( *(alpha1_r + 0*inca2), *(alpha1_i + 0*inca2), *(pi1_r + 0) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 1*inca2), *(alpha1_i + 1*inca2), *(pi1_r + 1) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 2*inca2), *(alpha1_i + 2*inca2), *(pi1_r + 2) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 3*inca2), *(alpha1_i + 3*inca2), *(pi1_r + 3) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 4*inca2), *(alpha1_i + 4*inca2), *(pi1_r + 4) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 5*inca2), *(alpha1_i + 5*inca2), *(pi1_r + 5) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 6*inca2), *(alpha1_i + 6*inca2), *(pi1_r + 6) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 7*inca2), *(alpha1_i + 7*inca2), *(pi1_r + 7) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 8*inca2), *(alpha1_i + 8*inca2), *(pi1_r + 8) ); \
PASTEMAC(chr,add3s)( *(alpha1_r + 9*inca2), *(alpha1_i + 9*inca2), *(pi1_r + 9) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +10*inca2), *(alpha1_i +10*inca2), *(pi1_r +10) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +11*inca2), *(alpha1_i +11*inca2), *(pi1_r +11) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +12*inca2), *(alpha1_i +12*inca2), *(pi1_r +12) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +13*inca2), *(alpha1_i +13*inca2), *(pi1_r +13) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +14*inca2), *(alpha1_i +14*inca2), *(pi1_r +14) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +15*inca2), *(alpha1_i +15*inca2), *(pi1_r +15) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +16*inca2), *(alpha1_i +16*inca2), *(pi1_r +16) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +17*inca2), *(alpha1_i +17*inca2), *(pi1_r +17) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +18*inca2), *(alpha1_i +18*inca2), *(pi1_r +18) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +19*inca2), *(alpha1_i +19*inca2), *(pi1_r +19) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +20*inca2), *(alpha1_i +20*inca2), *(pi1_r +20) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +21*inca2), *(alpha1_i +21*inca2), *(pi1_r +21) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +22*inca2), *(alpha1_i +22*inca2), *(pi1_r +22) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +23*inca2), *(alpha1_i +23*inca2), *(pi1_r +23) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +24*inca2), *(alpha1_i +24*inca2), *(pi1_r +24) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +25*inca2), *(alpha1_i +25*inca2), *(pi1_r +25) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +26*inca2), *(alpha1_i +26*inca2), *(pi1_r +26) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +27*inca2), *(alpha1_i +27*inca2), *(pi1_r +27) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +28*inca2), *(alpha1_i +28*inca2), *(pi1_r +28) ); \
PASTEMAC(chr,add3s)( *(alpha1_r +29*inca2), *(alpha1_i +29*inca2), *(pi1_r +29) ); \
\
alpha1_r += lda2; \
alpha1_i += lda2; \
pi1_r += ldp; \
} \
} \
} \
else \
{ \
if ( bli_is_conj( conja ) ) \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +16*inca), *(pi1_r +16) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +17*inca), *(pi1_r +17) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +18*inca), *(pi1_r +18) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +19*inca), *(pi1_r +19) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +20*inca), *(pi1_r +20) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +21*inca), *(pi1_r +21) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +22*inca), *(pi1_r +22) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +23*inca), *(pi1_r +23) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +24*inca), *(pi1_r +24) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +25*inca), *(pi1_r +25) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +26*inca), *(pi1_r +26) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +27*inca), *(pi1_r +27) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +28*inca), *(pi1_r +28) ); \
PASTEMAC(ch,scal2jrpis)( *kappa_cast, *(alpha1 +29*inca), *(pi1_r +29) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
else \
{ \
for ( ; n != 0; --n ) \
{ \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 0*inca), *(pi1_r + 0) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 1*inca), *(pi1_r + 1) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 2*inca), *(pi1_r + 2) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 3*inca), *(pi1_r + 3) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 4*inca), *(pi1_r + 4) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 5*inca), *(pi1_r + 5) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 6*inca), *(pi1_r + 6) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 7*inca), *(pi1_r + 7) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 8*inca), *(pi1_r + 8) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 + 9*inca), *(pi1_r + 9) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +10*inca), *(pi1_r +10) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +11*inca), *(pi1_r +11) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +12*inca), *(pi1_r +12) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +13*inca), *(pi1_r +13) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +14*inca), *(pi1_r +14) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +15*inca), *(pi1_r +15) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +16*inca), *(pi1_r +16) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +17*inca), *(pi1_r +17) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +18*inca), *(pi1_r +18) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +19*inca), *(pi1_r +19) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +20*inca), *(pi1_r +20) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +21*inca), *(pi1_r +21) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +22*inca), *(pi1_r +22) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +23*inca), *(pi1_r +23) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +24*inca), *(pi1_r +24) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +25*inca), *(pi1_r +25) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +26*inca), *(pi1_r +26) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +27*inca), *(pi1_r +27) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +28*inca), *(pi1_r +28) ); \
PASTEMAC(ch,scal2rpis)( *kappa_cast, *(alpha1 +29*inca), *(pi1_r +29) ); \
\
alpha1 += lda; \
pi1_r += ldp; \
} \
} \
} \
} \
}
INSERT_GENTFUNCCO_BASIC2( packm_30xk_rih, BLIS_CNAME_INFIX, BLIS_REF_SUFFIX )
Reference in New Issue View Git Blame Copy Permalink