mirror of
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645d771a14
Details: - Changed all void* function arguments in reference packm kernels to those of the native type (ctype*). These pointers no longer need to be void* and are better represented by their native types anyway. (See below for details.) Updated knl packm kernels accordingly. - In the definition of the PACKM_KER_PROT prototype macro template in frame/1m/bli_l1m_ker_prot.h, changed the pointer types for kappa, a, and p from void* to ctype*. They were originally void* because these function signatures had to share the same type so they could all be stored in a single array of that shared type, from which they were queried and called by packm_cxk(). This is no longer how the function pointers are stored, and so it no longer makes sense to force the caller of packm kernels to use void*, only so that the implementor of the packm kernels can typecast back to the native datatype within the kernel definition. This change has no effect internally within BLIS because currently all packm kernels are called after querying the function addresses from the context and then typecasting to the appropriate function pointer type, which is based upon type-specific function pointers like float* and double*. - Removed a comment in frame/1m/bli_l1m_ft_ker.h that was outdated and misleading due to changes to the handling of packm kernels since moving them into the context.
655 lines
23 KiB
C
655 lines
23 KiB
C
/*
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BLIS
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An object-based framework for developing high-performance BLAS-like
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libraries.
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Copyright (C) 2014, The University of Texas at Austin
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions are
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met:
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- Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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- Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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- Neither the name(s) of the copyright holder(s) nor the names of its
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contributors may be used to endorse or promote products derived
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from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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#include "blis.h"
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// -- 6xk, duplication factor 2 ------------------------------------------------
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#undef GENTFUNC
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#define GENTFUNC( ctype, ch, opname, mnr, arch, suf ) \
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\
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void PASTEMAC3(ch,opname,arch,suf) \
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( \
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conj_t conja, \
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pack_t schema, \
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dim_t cdim, \
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dim_t n, \
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dim_t n_max, \
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ctype* restrict kappa, \
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ctype* restrict a, inc_t inca, inc_t lda, \
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ctype* restrict p, inc_t ldp, \
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cntx_t* restrict cntx \
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) \
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{ \
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ctype* restrict alpha1 = a; \
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ctype* restrict pi1 = p; \
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\
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const dim_t dfac = 2; \
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\
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/* Handle the packing of B (column panel schemas) separately from packing
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of A (row panel schemas). */ \
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if ( bli_is_col_packed( schema ) ) \
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{ \
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if ( cdim == mnr ) \
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{ \
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if ( PASTEMAC(ch,eq1)( *kappa ) ) \
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{ \
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if ( bli_is_conj( conja ) ) \
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{ \
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for ( dim_t k = n; k != 0; --k ) \
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{ \
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PASTEMAC(ch,copyjs)( *(alpha1 + 0*inca), *(pi1 + 0) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 0*inca), *(pi1 + 1) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 1*inca), *(pi1 + 2) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 1*inca), *(pi1 + 3) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 2*inca), *(pi1 + 4) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 2*inca), *(pi1 + 5) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 3*inca), *(pi1 + 6) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 3*inca), *(pi1 + 7) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 4*inca), *(pi1 + 8) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 4*inca), *(pi1 + 9) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 5*inca), *(pi1 + 10) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 5*inca), *(pi1 + 11) ); \
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\
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alpha1 += lda; \
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pi1 += ldp; \
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} \
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} \
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else /* if ( bli_is_noconj( conja ) ) */ \
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{ \
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for ( dim_t k = n; k != 0; --k ) \
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{ \
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PASTEMAC(ch,copys)( *(alpha1 + 0*inca), *(pi1 + 0) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 0*inca), *(pi1 + 1) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 1*inca), *(pi1 + 2) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 1*inca), *(pi1 + 3) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 2*inca), *(pi1 + 4) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 2*inca), *(pi1 + 5) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 3*inca), *(pi1 + 6) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 3*inca), *(pi1 + 7) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 4*inca), *(pi1 + 8) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 4*inca), *(pi1 + 9) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 5*inca), *(pi1 + 10) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 5*inca), *(pi1 + 11) ); \
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\
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alpha1 += lda; \
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pi1 += ldp; \
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} \
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} \
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} \
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else /* if ( !PASTEMAC(ch,eq1)( *kappa ) ) */ \
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{ \
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if ( bli_is_conj( conja ) ) \
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{ \
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for ( dim_t k = n; k != 0; --k ) \
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{ \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 0*inca), *(pi1 + 0) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 0*inca), *(pi1 + 1) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 1*inca), *(pi1 + 2) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 1*inca), *(pi1 + 3) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 2*inca), *(pi1 + 4) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 2*inca), *(pi1 + 5) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 3*inca), *(pi1 + 6) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 3*inca), *(pi1 + 7) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 4*inca), *(pi1 + 8) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 4*inca), *(pi1 + 9) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 5*inca), *(pi1 + 10) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 5*inca), *(pi1 + 11) ); \
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\
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alpha1 += lda; \
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pi1 += ldp; \
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} \
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} \
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else /* if ( bli_is_noconj( conja ) ) */ \
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{ \
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for ( dim_t k = n; k != 0; --k ) \
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{ \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 0*inca), *(pi1 + 0) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 0*inca), *(pi1 + 1) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 1*inca), *(pi1 + 2) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 1*inca), *(pi1 + 3) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 2*inca), *(pi1 + 4) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 2*inca), *(pi1 + 5) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 3*inca), *(pi1 + 6) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 3*inca), *(pi1 + 7) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 4*inca), *(pi1 + 8) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 4*inca), *(pi1 + 9) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 5*inca), *(pi1 + 10) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 5*inca), *(pi1 + 11) ); \
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\
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alpha1 += lda; \
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pi1 += ldp; \
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} \
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} \
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} \
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} \
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else /* if ( cdim < mnr ) */ \
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{ \
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PASTEMAC(ch,scal2bbs_mxn) \
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( \
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conja, \
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cdim, \
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n, \
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kappa, \
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a, inca, lda, \
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p, dfac, ldp \
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); \
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\
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/* if ( cdim < mnr ) */ \
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{ \
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const dim_t i = cdim; \
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const dim_t m_edge = mnr - cdim; \
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const dim_t n_edge = n_max; \
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ctype* restrict p_cast = p; \
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ctype* restrict p_edge = p_cast + (i )*dfac; \
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\
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PASTEMAC(ch,set0bbs_mxn) \
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( \
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m_edge, \
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n_edge, \
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p_edge, dfac, ldp \
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); \
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} \
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} \
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\
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if ( n < n_max ) \
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{ \
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const dim_t j = n; \
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const dim_t m_edge = mnr; \
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const dim_t n_edge = n_max - n; \
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ctype* restrict p_cast = p; \
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ctype* restrict p_edge = p_cast + (j )*ldp; \
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\
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PASTEMAC(ch,set0bbs_mxn) \
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( \
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m_edge, \
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n_edge, \
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p_edge, dfac, ldp \
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); \
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} \
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} \
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else /* if ( bli_is_row_packed( schema ) ) */ \
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{ \
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if ( cdim == mnr ) \
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{ \
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if ( PASTEMAC(ch,eq1)( *kappa ) ) \
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{ \
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if ( bli_is_conj( conja ) ) \
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{ \
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for ( dim_t k = n; k != 0; --k ) \
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{ \
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PASTEMAC(ch,copyjs)( *(alpha1 + 0*inca), *(pi1 + 0) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 1*inca), *(pi1 + 1) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 2*inca), *(pi1 + 2) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 3*inca), *(pi1 + 3) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 4*inca), *(pi1 + 4) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 5*inca), *(pi1 + 5) ); \
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\
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alpha1 += lda; \
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pi1 += ldp; \
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} \
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} \
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else /* if ( bli_is_noconj( conja ) ) */ \
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{ \
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for ( dim_t k = n; k != 0; --k ) \
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{ \
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PASTEMAC(ch,copys)( *(alpha1 + 0*inca), *(pi1 + 0) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 1*inca), *(pi1 + 1) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 2*inca), *(pi1 + 2) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 3*inca), *(pi1 + 3) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 4*inca), *(pi1 + 4) ); \
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PASTEMAC(ch,copys)( *(alpha1 + 5*inca), *(pi1 + 5) ); \
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\
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alpha1 += lda; \
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pi1 += ldp; \
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} \
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} \
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} \
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else /* if ( !PASTEMAC(ch,eq1)( *kappa ) ) */ \
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{ \
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if ( bli_is_conj( conja ) ) \
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{ \
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for ( dim_t k = n; k != 0; --k ) \
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{ \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 0*inca), *(pi1 + 0) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 1*inca), *(pi1 + 1) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 2*inca), *(pi1 + 2) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 3*inca), *(pi1 + 3) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 4*inca), *(pi1 + 4) ); \
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PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 5*inca), *(pi1 + 5) ); \
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\
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alpha1 += lda; \
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pi1 += ldp; \
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} \
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} \
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else /* if ( bli_is_noconj( conja ) ) */ \
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{ \
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for ( dim_t k = n; k != 0; --k ) \
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{ \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 0*inca), *(pi1 + 0) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 1*inca), *(pi1 + 1) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 2*inca), *(pi1 + 2) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 3*inca), *(pi1 + 3) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 4*inca), *(pi1 + 4) ); \
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PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 5*inca), *(pi1 + 5) ); \
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\
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alpha1 += lda; \
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pi1 += ldp; \
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} \
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} \
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} \
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} \
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else /* if ( cdim < mnr ) */ \
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{ \
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PASTEMAC(ch,scal2s_mxn) \
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( \
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conja, \
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cdim, \
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n, \
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kappa, \
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a, inca, lda, \
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p, 1, ldp \
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); \
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\
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/* if ( cdim < mnr ) */ \
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{ \
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const dim_t i = cdim; \
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const dim_t m_edge = mnr - cdim; \
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const dim_t n_edge = n_max; \
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ctype* restrict p_cast = p; \
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ctype* restrict p_edge = p_cast + (i )*1; \
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\
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PASTEMAC(ch,set0s_mxn) \
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( \
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m_edge, \
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n_edge, \
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p_edge, 1, ldp \
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); \
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} \
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} \
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\
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if ( n < n_max ) \
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{ \
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const dim_t j = n; \
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const dim_t m_edge = mnr; \
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const dim_t n_edge = n_max - n; \
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ctype* restrict p_cast = p; \
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ctype* restrict p_edge = p_cast + (j )*ldp; \
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\
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PASTEMAC(ch,set0s_mxn) \
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( \
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m_edge, \
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n_edge, \
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p_edge, 1, ldp \
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); \
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} \
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} \
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}
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INSERT_GENTFUNC_BASIC3( packm_6xk_bb2, 6, BLIS_CNAME_INFIX, BLIS_REF_SUFFIX )
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// -- 6xk, duplication factor 4 ------------------------------------------------
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#undef GENTFUNC
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#define GENTFUNC( ctype, ch, opname, mnr, arch, suf ) \
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\
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void PASTEMAC3(ch,opname,arch,suf) \
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( \
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conj_t conja, \
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pack_t schema, \
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dim_t cdim, \
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dim_t n, \
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dim_t n_max, \
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ctype* restrict kappa, \
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ctype* restrict a, inc_t inca, inc_t lda, \
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ctype* restrict p, inc_t ldp, \
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cntx_t* restrict cntx \
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) \
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{ \
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ctype* restrict alpha1 = a; \
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ctype* restrict pi1 = p; \
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\
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const dim_t dfac = 4; \
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\
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/* Handle the packing of B (column panel schemas) separately from packing
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of A (row panel schemas). */ \
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|
if ( bli_is_col_packed( schema ) ) \
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{ \
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|
if ( cdim == mnr ) \
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{ \
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if ( PASTEMAC(ch,eq1)( *kappa ) ) \
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{ \
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if ( bli_is_conj( conja ) ) \
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{ \
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for ( dim_t k = n; k != 0; --k ) \
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{ \
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PASTEMAC(ch,copyjs)( *(alpha1 + 0*inca), *(pi1 + 0) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 0*inca), *(pi1 + 1) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 0*inca), *(pi1 + 2) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 0*inca), *(pi1 + 3) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 1*inca), *(pi1 + 4) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 1*inca), *(pi1 + 5) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 1*inca), *(pi1 + 6) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 1*inca), *(pi1 + 7) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 2*inca), *(pi1 + 8) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 2*inca), *(pi1 + 9) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 2*inca), *(pi1 + 10) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 2*inca), *(pi1 + 11) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 3*inca), *(pi1 + 12) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 3*inca), *(pi1 + 13) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 3*inca), *(pi1 + 14) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 3*inca), *(pi1 + 15) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 4*inca), *(pi1 + 16) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 4*inca), *(pi1 + 17) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 4*inca), *(pi1 + 18) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 4*inca), *(pi1 + 19) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 5*inca), *(pi1 + 20) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 5*inca), *(pi1 + 21) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 5*inca), *(pi1 + 22) ); \
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PASTEMAC(ch,copyjs)( *(alpha1 + 5*inca), *(pi1 + 23) ); \
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\
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alpha1 += lda; \
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pi1 += ldp; \
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} \
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} \
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else /* if ( bli_is_noconj( conja ) ) */ \
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|
{ \
|
|
for ( dim_t k = n; k != 0; --k ) \
|
|
{ \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 0*inca), *(pi1 + 0) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 0*inca), *(pi1 + 1) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 0*inca), *(pi1 + 2) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 0*inca), *(pi1 + 3) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 1*inca), *(pi1 + 4) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 1*inca), *(pi1 + 5) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 1*inca), *(pi1 + 6) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 1*inca), *(pi1 + 7) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 2*inca), *(pi1 + 8) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 2*inca), *(pi1 + 9) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 2*inca), *(pi1 + 10) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 2*inca), *(pi1 + 11) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 3*inca), *(pi1 + 12) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 3*inca), *(pi1 + 13) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 3*inca), *(pi1 + 14) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 3*inca), *(pi1 + 15) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 4*inca), *(pi1 + 16) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 4*inca), *(pi1 + 17) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 4*inca), *(pi1 + 18) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 4*inca), *(pi1 + 19) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 5*inca), *(pi1 + 20) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 5*inca), *(pi1 + 21) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 5*inca), *(pi1 + 22) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 5*inca), *(pi1 + 23) ); \
|
|
\
|
|
alpha1 += lda; \
|
|
pi1 += ldp; \
|
|
} \
|
|
} \
|
|
} \
|
|
else /* if ( !PASTEMAC(ch,eq1)( *kappa ) ) */ \
|
|
{ \
|
|
if ( bli_is_conj( conja ) ) \
|
|
{ \
|
|
for ( dim_t k = n; k != 0; --k ) \
|
|
{ \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 0*inca), *(pi1 + 0) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 0*inca), *(pi1 + 1) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 0*inca), *(pi1 + 2) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 0*inca), *(pi1 + 3) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 1*inca), *(pi1 + 4) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 1*inca), *(pi1 + 5) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 1*inca), *(pi1 + 6) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 1*inca), *(pi1 + 7) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 2*inca), *(pi1 + 8) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 2*inca), *(pi1 + 9) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 2*inca), *(pi1 + 10) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 2*inca), *(pi1 + 11) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 3*inca), *(pi1 + 12) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 3*inca), *(pi1 + 13) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 3*inca), *(pi1 + 14) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 3*inca), *(pi1 + 15) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 4*inca), *(pi1 + 16) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 4*inca), *(pi1 + 17) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 4*inca), *(pi1 + 18) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 4*inca), *(pi1 + 19) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 5*inca), *(pi1 + 20) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 5*inca), *(pi1 + 21) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 5*inca), *(pi1 + 22) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 5*inca), *(pi1 + 23) ); \
|
|
\
|
|
alpha1 += lda; \
|
|
pi1 += ldp; \
|
|
} \
|
|
} \
|
|
else /* if ( bli_is_noconj( conja ) ) */ \
|
|
{ \
|
|
for ( dim_t k = n; k != 0; --k ) \
|
|
{ \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 0*inca), *(pi1 + 0) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 0*inca), *(pi1 + 1) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 0*inca), *(pi1 + 2) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 0*inca), *(pi1 + 3) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 1*inca), *(pi1 + 4) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 1*inca), *(pi1 + 5) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 1*inca), *(pi1 + 6) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 1*inca), *(pi1 + 7) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 2*inca), *(pi1 + 8) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 2*inca), *(pi1 + 9) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 2*inca), *(pi1 + 10) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 2*inca), *(pi1 + 11) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 3*inca), *(pi1 + 12) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 3*inca), *(pi1 + 13) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 3*inca), *(pi1 + 14) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 3*inca), *(pi1 + 15) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 4*inca), *(pi1 + 16) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 4*inca), *(pi1 + 17) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 4*inca), *(pi1 + 18) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 4*inca), *(pi1 + 19) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 5*inca), *(pi1 + 20) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 5*inca), *(pi1 + 21) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 5*inca), *(pi1 + 22) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 5*inca), *(pi1 + 23) ); \
|
|
\
|
|
alpha1 += lda; \
|
|
pi1 += ldp; \
|
|
} \
|
|
} \
|
|
} \
|
|
} \
|
|
else /* if ( cdim < mnr ) */ \
|
|
{ \
|
|
PASTEMAC(ch,scal2bbs_mxn) \
|
|
( \
|
|
conja, \
|
|
cdim, \
|
|
n, \
|
|
kappa, \
|
|
a, inca, lda, \
|
|
p, dfac, ldp \
|
|
); \
|
|
\
|
|
/* if ( cdim < mnr ) */ \
|
|
{ \
|
|
const dim_t i = cdim; \
|
|
const dim_t m_edge = mnr - cdim; \
|
|
const dim_t n_edge = n_max; \
|
|
ctype* restrict p_cast = p; \
|
|
ctype* restrict p_edge = p_cast + (i )*dfac; \
|
|
\
|
|
PASTEMAC(ch,set0bbs_mxn) \
|
|
( \
|
|
m_edge, \
|
|
n_edge, \
|
|
p_edge, dfac, ldp \
|
|
); \
|
|
} \
|
|
} \
|
|
\
|
|
if ( n < n_max ) \
|
|
{ \
|
|
const dim_t j = n; \
|
|
const dim_t m_edge = mnr; \
|
|
const dim_t n_edge = n_max - n; \
|
|
ctype* restrict p_cast = p; \
|
|
ctype* restrict p_edge = p_cast + (j )*ldp; \
|
|
\
|
|
PASTEMAC(ch,set0bbs_mxn) \
|
|
( \
|
|
m_edge, \
|
|
n_edge, \
|
|
p_edge, dfac, ldp \
|
|
); \
|
|
} \
|
|
} \
|
|
else /* if ( bli_is_row_packed( schema ) ) */ \
|
|
{ \
|
|
if ( cdim == mnr ) \
|
|
{ \
|
|
if ( PASTEMAC(ch,eq1)( *kappa ) ) \
|
|
{ \
|
|
if ( bli_is_conj( conja ) ) \
|
|
{ \
|
|
for ( dim_t k = n; k != 0; --k ) \
|
|
{ \
|
|
PASTEMAC(ch,copyjs)( *(alpha1 + 0*inca), *(pi1 + 0) ); \
|
|
PASTEMAC(ch,copyjs)( *(alpha1 + 1*inca), *(pi1 + 1) ); \
|
|
PASTEMAC(ch,copyjs)( *(alpha1 + 2*inca), *(pi1 + 2) ); \
|
|
PASTEMAC(ch,copyjs)( *(alpha1 + 3*inca), *(pi1 + 3) ); \
|
|
PASTEMAC(ch,copyjs)( *(alpha1 + 4*inca), *(pi1 + 4) ); \
|
|
PASTEMAC(ch,copyjs)( *(alpha1 + 5*inca), *(pi1 + 5) ); \
|
|
\
|
|
alpha1 += lda; \
|
|
pi1 += ldp; \
|
|
} \
|
|
} \
|
|
else /* if ( bli_is_noconj( conja ) ) */ \
|
|
{ \
|
|
for ( dim_t k = n; k != 0; --k ) \
|
|
{ \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 0*inca), *(pi1 + 0) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 1*inca), *(pi1 + 1) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 2*inca), *(pi1 + 2) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 3*inca), *(pi1 + 3) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 4*inca), *(pi1 + 4) ); \
|
|
PASTEMAC(ch,copys)( *(alpha1 + 5*inca), *(pi1 + 5) ); \
|
|
\
|
|
alpha1 += lda; \
|
|
pi1 += ldp; \
|
|
} \
|
|
} \
|
|
} \
|
|
else /* if ( !PASTEMAC(ch,eq1)( *kappa ) ) */ \
|
|
{ \
|
|
if ( bli_is_conj( conja ) ) \
|
|
{ \
|
|
for ( dim_t k = n; k != 0; --k ) \
|
|
{ \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 0*inca), *(pi1 + 0) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 1*inca), *(pi1 + 1) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 2*inca), *(pi1 + 2) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 3*inca), *(pi1 + 3) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 4*inca), *(pi1 + 4) ); \
|
|
PASTEMAC(ch,scal2js)( *kappa, *(alpha1 + 5*inca), *(pi1 + 5) ); \
|
|
\
|
|
alpha1 += lda; \
|
|
pi1 += ldp; \
|
|
} \
|
|
} \
|
|
else /* if ( bli_is_noconj( conja ) ) */ \
|
|
{ \
|
|
for ( dim_t k = n; k != 0; --k ) \
|
|
{ \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 0*inca), *(pi1 + 0) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 1*inca), *(pi1 + 1) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 2*inca), *(pi1 + 2) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 3*inca), *(pi1 + 3) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 4*inca), *(pi1 + 4) ); \
|
|
PASTEMAC(ch,scal2s)( *kappa, *(alpha1 + 5*inca), *(pi1 + 5) ); \
|
|
\
|
|
alpha1 += lda; \
|
|
pi1 += ldp; \
|
|
} \
|
|
} \
|
|
} \
|
|
} \
|
|
else /* if ( cdim < mnr ) */ \
|
|
{ \
|
|
PASTEMAC(ch,scal2s_mxn) \
|
|
( \
|
|
conja, \
|
|
cdim, \
|
|
n, \
|
|
kappa, \
|
|
a, inca, lda, \
|
|
p, 1, ldp \
|
|
); \
|
|
\
|
|
/* if ( cdim < mnr ) */ \
|
|
{ \
|
|
const dim_t i = cdim; \
|
|
const dim_t m_edge = mnr - cdim; \
|
|
const dim_t n_edge = n_max; \
|
|
ctype* restrict p_cast = p; \
|
|
ctype* restrict p_edge = p_cast + (i )*1; \
|
|
\
|
|
PASTEMAC(ch,set0s_mxn) \
|
|
( \
|
|
m_edge, \
|
|
n_edge, \
|
|
p_edge, 1, ldp \
|
|
); \
|
|
} \
|
|
} \
|
|
\
|
|
if ( n < n_max ) \
|
|
{ \
|
|
const dim_t j = n; \
|
|
const dim_t m_edge = mnr; \
|
|
const dim_t n_edge = n_max - n; \
|
|
ctype* restrict p_cast = p; \
|
|
ctype* restrict p_edge = p_cast + (j )*ldp; \
|
|
\
|
|
PASTEMAC(ch,set0s_mxn) \
|
|
( \
|
|
m_edge, \
|
|
n_edge, \
|
|
p_edge, 1, ldp \
|
|
); \
|
|
} \
|
|
} \
|
|
}
|
|
|
|
INSERT_GENTFUNC_BASIC3( packm_6xk_bb4, 6, BLIS_CNAME_INFIX, BLIS_REF_SUFFIX )
|
|
|