amd/blis
1
0
Fork 0
mirror of https://github.com/amd/blis.git synced 2026-05-05 15:01:13 +00:00
Code Issues Packages Projects Releases Wiki Activity
Files
8f399c89403d5824ba767df1426706cf2d19d0a7
blis/frame/3/bli_l3_check.c
Field G. Van Zee 0645f239fb Remove UT-Austin from copyright headers' clause 3. 
Details:
- Removed explicit reference to The University of Texas at Austin in the
  third clause of the license comment blocks of all relevant files and
  replaced it with a more all-encompassing "copyright holder(s)".
- Removed duplicate words ("derived") from a few kernels' license
  comment blocks.
- Homogenized license comment block in kernels/zen/3/bli_gemm_small.c
  with format of all other comment blocks.
2018-12-04 14:31:06 -06:00

544 lines
12 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(s) of the copyright holder(s) 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"
void bli_gemm_check
(
obj_t* alpha,
obj_t* a,
obj_t* b,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
//err_t e_val;
// Check basic properties of the operation.
bli_gemm_basic_check( alpha, a, b, beta, c, cntx );
// Check object structure.
// NOTE: Can't perform these checks as long as bli_gemm_check() is called
// from bli_gemm_int(), which is in the execution path for structured
// level-3 operations such as hemm.
//e_val = bli_check_general_object( a );
//bli_check_error_code( e_val );
//e_val = bli_check_general_object( b );
//bli_check_error_code( e_val );
}
void bli_hemm_check
(
side_t side,
obj_t* alpha,
obj_t* a,
obj_t* b,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
// Perform checks common to hemm/symm.
bli_hemm_basic_check( side, alpha, a, b, beta, c, cntx );
// Check object structure.
e_val = bli_check_hermitian_object( a );
bli_check_error_code( e_val );
}
void bli_herk_check
(
obj_t* alpha,
obj_t* a,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
obj_t ah;
// Alias A to A^H so we can perform dimension checks.
bli_obj_alias_with_trans( BLIS_CONJ_TRANSPOSE, a, &ah );
// Check basic properties of the operation.
bli_herk_basic_check( alpha, a, &ah, beta, c, cntx );
// Check for real-valued alpha and beta.
e_val = bli_check_real_valued_object( alpha );
bli_check_error_code( e_val );
e_val = bli_check_real_valued_object( beta );
bli_check_error_code( e_val );
// Check matrix structure.
e_val = bli_check_hermitian_object( c );
bli_check_error_code( e_val );
}
void bli_her2k_check
(
obj_t* alpha,
obj_t* a,
obj_t* b,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
obj_t ah, bh;
// Alias A and B to A^H and B^H so we can perform dimension checks.
bli_obj_alias_with_trans( BLIS_CONJ_TRANSPOSE, a, &ah );
bli_obj_alias_with_trans( BLIS_CONJ_TRANSPOSE, b, &bh );
// Check basic properties of the operation.
bli_her2k_basic_check( alpha, a, &bh, b, &ah, beta, c, cntx );
// Check for real-valued beta.
e_val = bli_check_real_valued_object( beta );
bli_check_error_code( e_val );
// Check matrix structure.
e_val = bli_check_hermitian_object( c );
bli_check_error_code( e_val );
}
void bli_symm_check
(
side_t side,
obj_t* alpha,
obj_t* a,
obj_t* b,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
// Check basic properties of the operation.
bli_hemm_basic_check( side, alpha, a, b, beta, c, cntx );
// Check object structure.
e_val = bli_check_symmetric_object( a );
bli_check_error_code( e_val );
}
void bli_syrk_check
(
obj_t* alpha,
obj_t* a,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
obj_t at;
// Alias A to A^T so we can perform dimension checks.
bli_obj_alias_with_trans( BLIS_TRANSPOSE, a, &at );
// Check basic properties of the operation.
bli_herk_basic_check( alpha, a, &at, beta, c, cntx );
// Check matrix structure.
e_val = bli_check_symmetric_object( c );
bli_check_error_code( e_val );
}
void bli_syr2k_check
(
obj_t* alpha,
obj_t* a,
obj_t* b,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
obj_t at, bt;
// Alias A and B to A^T and B^T so we can perform dimension checks.
bli_obj_alias_with_trans( BLIS_TRANSPOSE, a, &at );
bli_obj_alias_with_trans( BLIS_TRANSPOSE, b, &bt );
// Check basic properties of the operation.
bli_her2k_basic_check( alpha, a, &bt, b, &at, beta, c, cntx );
// Check matrix structure.
e_val = bli_check_symmetric_object( c );
bli_check_error_code( e_val );
}
void bli_trmm_check
(
side_t side,
obj_t* alpha,
obj_t* a,
obj_t* b,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
// Perform checks common to hemm/symm.
bli_hemm_basic_check( side, alpha, a, b, beta, c, cntx );
// Check object structure.
e_val = bli_check_triangular_object( a );
bli_check_error_code( e_val );
}
void bli_trsm_check
(
side_t side,
obj_t* alpha,
obj_t* a,
obj_t* b,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
// Perform checks common to hemm/symm.
bli_hemm_basic_check( side, alpha, a, b, beta, c, cntx );
// Check object structure.
e_val = bli_check_triangular_object( a );
bli_check_error_code( e_val );
}
// -----------------------------------------------------------------------------
void bli_gemm_basic_check
(
obj_t* alpha,
obj_t* a,
obj_t* b,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
// Perform standard checks.
bli_l3_basic_check( alpha, a, b, beta, c, cntx );
// Check object dimensions.
e_val = bli_check_level3_dims( a, b, c );
bli_check_error_code( e_val );
#ifdef BLIS_ENABLE_GEMM_MD
// Skip checking for consistent datatypes between A, B, and C since
// that is totally valid for mixed-datatype gemm.
// When mixing datatypes, make sure that alpha does not have a non-zero
// imaginary component.
if ( bli_obj_dt( c ) != bli_obj_dt( a ) ||
bli_obj_dt( c ) != bli_obj_dt( b ) ||
bli_obj_comp_prec( c ) != bli_obj_prec( c ) )
if ( !bli_obj_imag_is_zero( alpha ) )
{
bli_print_msg( "Mixed-datatype gemm does not yet support alpha with a non-zero imaginary component. Please contact BLIS developers for further support.", __FILE__, __LINE__ );
bli_abort();
}
#else // BLIS_DISABLE_GEMM_MD
// Check for consistent datatypes.
// NOTE: We only perform these tests when mixed datatype support is
// disabled.
e_val = bli_check_consistent_object_datatypes( c, a );
bli_check_error_code( e_val );
e_val = bli_check_consistent_object_datatypes( c, b );
bli_check_error_code( e_val );
#endif
}
void bli_hemm_basic_check
(
side_t side,
obj_t* alpha,
obj_t* a,
obj_t* b,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
// Perform standard checks.
bli_l3_basic_check( alpha, a, b, beta, c, cntx );
// Check object dimensions.
if ( bli_is_left( side ) )
{
e_val = bli_check_level3_dims( a, b, c );
bli_check_error_code( e_val );
}
else // if ( bli_is_right( side ) )
{
e_val = bli_check_level3_dims( b, a, c );
bli_check_error_code( e_val );
}
// Check matrix squareness.
e_val = bli_check_square_object( a );
bli_check_error_code( e_val );
// Check for consistent datatypes.
e_val = bli_check_consistent_object_datatypes( c, a );
bli_check_error_code( e_val );
e_val = bli_check_consistent_object_datatypes( c, b );
bli_check_error_code( e_val );
}
void bli_herk_basic_check
(
obj_t* alpha,
obj_t* a,
obj_t* ah,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
// Perform standard checks.
bli_l3_basic_check( alpha, a, ah, beta, c, cntx );
// Check object dimensions.
e_val = bli_check_level3_dims( a, ah, c );
bli_check_error_code( e_val );
// Check matrix squareness.
e_val = bli_check_square_object( c );
bli_check_error_code( e_val );
// Check matrix structure.
e_val = bli_check_general_object( a );
bli_check_error_code( e_val );
e_val = bli_check_general_object( ah );
bli_check_error_code( e_val );
// Check for consistent datatypes.
e_val = bli_check_consistent_object_datatypes( c, a );
bli_check_error_code( e_val );
e_val = bli_check_consistent_object_datatypes( c, ah );
bli_check_error_code( e_val );
}
void bli_her2k_basic_check
(
obj_t* alpha,
obj_t* a,
obj_t* bh,
obj_t* b,
obj_t* ah,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
// Perform standard checks.
bli_l3_basic_check( alpha, a, bh, beta, c, cntx );
bli_l3_basic_check( alpha, b, ah, beta, c, cntx );
// Check object dimensions.
e_val = bli_check_level3_dims( a, bh, c );
bli_check_error_code( e_val );
e_val = bli_check_level3_dims( b, ah, c );
bli_check_error_code( e_val );
// Check matrix squareness.
e_val = bli_check_square_object( c );
bli_check_error_code( e_val );
// Check matrix structure.
e_val = bli_check_general_object( a );
bli_check_error_code( e_val );
e_val = bli_check_general_object( bh );
bli_check_error_code( e_val );
e_val = bli_check_general_object( b );
bli_check_error_code( e_val );
e_val = bli_check_general_object( ah );
bli_check_error_code( e_val );
// Check for consistent datatypes.
e_val = bli_check_consistent_object_datatypes( c, a );
bli_check_error_code( e_val );
e_val = bli_check_consistent_object_datatypes( c, ah );
bli_check_error_code( e_val );
e_val = bli_check_consistent_object_datatypes( c, b );
bli_check_error_code( e_val );
e_val = bli_check_consistent_object_datatypes( c, bh );
bli_check_error_code( e_val );
}
void bli_l3_basic_check
(
obj_t* alpha,
obj_t* a,
obj_t* b,
obj_t* beta,
obj_t* c,
cntx_t* cntx
)
{
err_t e_val;
// Check object datatypes.
e_val = bli_check_noninteger_object( alpha );
bli_check_error_code( e_val );
e_val = bli_check_noninteger_object( beta );
bli_check_error_code( e_val );
e_val = bli_check_floating_object( a );
bli_check_error_code( e_val );
e_val = bli_check_floating_object( b );
bli_check_error_code( e_val );
e_val = bli_check_floating_object( c );
bli_check_error_code( e_val );
// Check object dimensions.
e_val = bli_check_scalar_object( alpha );
bli_check_error_code( e_val );
e_val = bli_check_scalar_object( beta );
bli_check_error_code( e_val );
e_val = bli_check_matrix_object( a );
bli_check_error_code( e_val );
e_val = bli_check_matrix_object( b );
bli_check_error_code( e_val );
e_val = bli_check_matrix_object( c );
bli_check_error_code( e_val );
// Check object buffers (for non-NULLness).
e_val = bli_check_object_buffer( alpha );
bli_check_error_code( e_val );
e_val = bli_check_object_buffer( a );
bli_check_error_code( e_val );
e_val = bli_check_object_buffer( b );
bli_check_error_code( e_val );
e_val = bli_check_object_buffer( beta );
bli_check_error_code( e_val );
e_val = bli_check_object_buffer( c );
bli_check_error_code( e_val );
// Check for sufficiently sized stack buffers
e_val = bli_check_sufficient_stack_buf_size( bli_obj_dt( a ), cntx );
bli_check_error_code( e_val );
}
Reference in New Issue View Git Blame Copy Permalink