# SPDX-License-Identifier: GPL-2.0-or-later
# RingsForHomalg: Dictionaries of external rings
#
# Implementations
#
## Implementations for the rings with BestBasis provided by Singular.
####################################
#
# global variables:
#
####################################
BindGlobal( "CommonHomalgTableForSingularBestBasis",
rec(
## Can optionally be provided by the RingPackage
## (homalg functions check if these functions are defined or not)
## (homalgTable gives no default value)
BestBasis :=
function( arg )
local M, R, RP, nargs, S, U, V;
M := arg[1];
R := HomalgRing( M );
RP := homalgTable( R );
nargs := Length( arg );
#create void matrix for S
S := HomalgVoidMatrix( R );
#todo: reinsert, as soon as smith works
#SetIsDiagonalMatrix( S, true );
if nargs > 1 then
# assign U:
if IsHomalgMatrix( arg[2] ) then ## not BestBasis( M, "", V )
U := arg[2];
SetNumberRows( U, NumberRows( M ) );
SetNumberColumns( U, NumberRows( M ) );
SetIsInvertibleMatrix( U, true );
else
U := HomalgVoidMatrix( R );
fi;
# assign V:
if nargs > 2 and IsHomalgMatrix( arg[3] ) then ## not BestBasis( M, U, "" )
V := arg[3];
SetNumberRows( V, NumberColumns( M ) );
SetNumberColumns( V, NumberColumns( M ) );
SetIsInvertibleMatrix( V, true );
else
V := HomalgVoidMatrix( R );
fi;
## compute S, U and (if nargs > 2) V with S = U*M*V as side effect
## but these Matrices are only exported and have to be set
homalgSendBlocking( [ "list l=smith(", M,")" ], "need_command", "BestBasis" );
homalgSendBlocking( [ "matrix ",S,"=l[1]" ], "need_command");
homalgSendBlocking( [ "matrix ",U,"=l[3]" ], "need_command");
homalgSendBlocking( [ "matrix ",V,"=l[4]" ], "need_command");
else
## compute S only - same as above
homalgSendBlocking( [ "list l=smith(", M,")" ], "need_command", "BestBasis" );
homalgSendBlocking( [ "matrix ",S,"=l[1]" ], "need_command");
fi;
return S;
end,
)
);
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