Difference between revisions of "ApCoCoA-1:LinBox.REF"
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This function allows you to compute a (reduced) row echelon form of <tt>M</tt> over a finite field. If you want to use the first version without the parameter <tt>P</tt>, the components of the input matrix <tt>M</tt> must be of type <tt>ZMOD</tt> and your current working ring must be the same ring over which <tt>M</tt> has been defined. The second version of this function lets you compute a (reduced) row echelon form of <tt>M</tt> mod <tt>P</tt> and the components of <tt>M</tt> must be of type <tt>INT</tt>. | This function allows you to compute a (reduced) row echelon form of <tt>M</tt> over a finite field. If you want to use the first version without the parameter <tt>P</tt>, the components of the input matrix <tt>M</tt> must be of type <tt>ZMOD</tt> and your current working ring must be the same ring over which <tt>M</tt> has been defined. The second version of this function lets you compute a (reduced) row echelon form of <tt>M</tt> mod <tt>P</tt> and the components of <tt>M</tt> must be of type <tt>INT</tt>. | ||
Revision as of 13:00, 14 November 2008
LinBox.REF
compute row echelon form
Syntax
LinBox.REF(M:MAT, CompRREF:BOOL):MAT LinBox.REF(M:MAT, P:INT, CompRREF:BOOL):MAT
Description
Please note: The function(s) explained on this page is/are using the ApCoCoAServer. You will have to start the ApCoCoAServer in order to use
it/them. Please also not that you need an ApCoCoAServer with enabled LinBox support.
This function allows you to compute a (reduced) row echelon form of M over a finite field. If you want to use the first version without the parameter P, the components of the input matrix M must be of type ZMOD and your current working ring must be the same ring over which M has been defined. The second version of this function lets you compute a (reduced) row echelon form of M mod P and the components of M must be of type INT.
The parameter CompRREF lets you specify if you want to compute a row echelon form or the reduced row echelon form of M. If CompRREF is set to TRUE, the reduced row echelon form will be computed, and if it is set to FALSE, a row echelon form where all pivot elements are equal to one will be computed.
The return value of both functions is the computed (reduced) row echelon form of M.
Example
Use Z/(239)[x]; M := Mat([[1, 2, 3], [4, 5, 6], [7, 8, 9], [11, 12, 13]]); M; LinBox.REF(M, FALSE); Mat([ [1, 2, 3], [4, 5, 6], [7, 8, 9], [11, 12, 13] ]) ------------------------------- Mat([ [1 % 239, 2 % 239, 3 % 239], [0 % 239, 1 % 239, 2 % 239], [0 % 239, 0 % 239, 0 % 239], [0 % 239, 0 % 239, 0 % 239] ]) ------------------------------- Use Q[x,y]; M := Mat([[ 1, 1, 2], [200, 3000, 1], [2, 5, 17], [1, 1, 1]]); M; LinBox.REF(M, 17, TRUE); Mat([ [1, 1, 2], [200, 3000, 1], [2, 5, 17], [1, 1, 1] ]) ------------------------------- Mat([ [1, 0, 0], [0, 1, 0], [0, 0, 1], [0, 0, 0] ]) -------------------------------