| version 1.6, 2003/08/13 03:52:25 |
version 1.7, 2003/08/18 06:36:50 |
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| % $OpenXM: OpenXM/src/kan96xx/Doc/ecart.sm1,v 1.5 2003/08/04 11:42:42 takayama Exp $ |
% $OpenXM: OpenXM/src/kan96xx/Doc/ecart.sm1,v 1.6 2003/08/13 03:52:25 takayama Exp $ |
| %[(parse) (hol.sm1) pushfile] extension |
%[(parse) (hol.sm1) pushfile] extension |
| %[(parse) (appell.sm1) pushfile] extension |
%[(parse) (appell.sm1) pushfile] extension |
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| arg1 |
arg1 |
| } def |
} def |
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/ecart.gb {ecartd.gb} def |
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[(ecart.gb) |
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[(a ecart.gb b) |
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(array a; array b;) |
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$b : [g ii]; array g; array in; g is a standard (Grobner) basis of f$ |
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( in the ring of differential operators.) |
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(The computation is done by using Ecart division algorithm and ) |
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(the double homogenization.) |
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(cf. M.Granger and T.Oaku: Minimal filtered free resolutions ... 2003) |
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$ ii is the initial ideal in case of w is given or <<a>> belongs$ |
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$ to a ring. In the other cases, it returns the initial monominal.$ |
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(a : [f ]; array f; f is a set of generators of an ideal in a ring.) |
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(a : [f v]; array f; string v; v is the variables. ) |
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(a : [f v w]; array f; string v; array of array w; w is the weight matirx.) |
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(a : [f v w ds]; array f; string v; array of array w; w is the weight matirx.) |
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( array ds; ds is the degree shift ) |
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( ) |
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$cf. ecarth.gb (homogenized), ecartd.gb (dehomogenize) $ |
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( ) |
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$Example 1: [ [( (x Dx)^2 + (y Dy)^2 -1) ( x y Dx Dy -1)] (x,y) $ |
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$ [ [ (Dx) 1 ] [(x) -1 (y) -1 (Dx) 1 (Dy) 1]] ] ecart.gb pmat ; $ |
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(Example 2: ) |
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$ [ [(2 x Dx + 3 y Dy+6) (2 y Dx + 3 x^2 Dy)] (x,y) $ |
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$ [[(x) -1 (Dx) 1 (y) -1 (Dy) 1]]] ecart.gb pmat ;$ |
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( ) |
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$Example 3: [ [( (x Dx)^2 + (y Dy)^2 -1) ( x y Dx Dy -1)] (x,y) $ |
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$ [ [ (Dx) 1 (Dy) 1] ] ] ecart.gb pmat ; $ |
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( ) |
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$Example 4: [[ [(x^2) (y+x)] [(x+y) (y^3)] [(2 x^2+x y) (y+x+x y^3)]] (x,y) $ |
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$ [ [ (x) -1 (y) -1] [(x) -1 (y) -1 (Dx) 1 (Dy) 1]] ] ecart.gb pmat ; $ |
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( ) |
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$Example 5: [[ [(x^2) (y+x)] [(x+y) (y^3)] [(2 x^2+x y) (y+x+x y^3)]] (x,y) $ |
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$ [ [(Dx) 1 (Dy) 1] [(x) -1 (y) -1 (Dx) 1 (Dy) 1] ] [[0 1] [-3 1] ] ] ecart.gb pmat ; $ |
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( ) |
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(cf. gb, groebner, ecarth.gb, ecartd.gb, ecart.syz, ecart.begin, ecart.end, ecart.homogenize01, ) |
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( ecart.dehomogenize, ecart.dehomogenizeH) |
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( [(weightedHomogenization) 1 (degreeShift) [[1 2 1]]] : options for ) |
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( define_ring ) |
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(/ecart.autoHomogenize 0 def ) |
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( not to dehomogenize and homogenize) |
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]] putUsages |
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| /ecart.gb.verbose 1 def |
/ecart.gb.verbose 1 def |
| /ecart.gb { |
/ecarth.gb { |
| /arg1 set |
/arg1 set |
| [/in-ecart.gb /aa /typev /setarg /f /v |
[/in-ecarth.gb /aa /typev /setarg /f /v |
| /gg /wv /vec /ans /rr /mm |
/gg /wv /vec /ans /rr /mm |
| /degreeShift /env2 /opt /ans.gb |
/degreeShift /env2 /opt /ans.gb |
| ] pushVariables |
] pushVariables |
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| popVariables |
popVariables |
| arg1 |
arg1 |
| } def |
} def |
| (ecart.gb ) messagen-quiet |
(ecarth.gb ) messagen-quiet |
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| [(ecart.gb) |
[(ecarth.gb) |
| [(a ecart.gb b) |
[(a ecarth.gb b) |
| (array a; array b;) |
(array a; array b;) |
| $b : [g ii]; array g; array in; g is a standard (Grobner) basis of f$ |
$b : [g ii]; array g; array in; g is a standard (Grobner) basis of f$ |
| ( in the ring of differential operators.) |
( in the ring of differential operators.) |
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| ( not to dehomogenize and homogenize) |
( not to dehomogenize and homogenize) |
| ( ) |
( ) |
| $Example 1: [ [( (x Dx)^2 + (y Dy)^2 -1) ( x y Dx Dy -1)] (x,y) $ |
$Example 1: [ [( (x Dx)^2 + (y Dy)^2 -1) ( x y Dx Dy -1)] (x,y) $ |
| $ [ [ (Dx) 1 ] [(x) -1 (y) -1 (Dx) 1 (Dy) 1]] ] ecart.gb pmat ; $ |
$ [ [ (Dx) 1 ] [(x) -1 (y) -1 (Dx) 1 (Dy) 1]] ] ecarth.gb pmat ; $ |
| (Example 2: ) |
(Example 2: ) |
| (To put H and h=1, type in, e.g., ) |
(To put H and h=1, type in, e.g., ) |
| $ [ [(2 x Dx + 3 y Dy+6) (2 y Dx + 3 x^2 Dy)] (x,y) $ |
$ [ [(2 x Dx + 3 y Dy+6) (2 y Dx + 3 x^2 Dy)] (x,y) $ |
| $ [[(x) -1 (Dx) 1 (y) -1 (Dy) 1]]] ecart.gb /gg set gg ecart.dehomogenize pmat ;$ |
$ [[(x) -1 (Dx) 1 (y) -1 (Dy) 1]]] ecarth.gb /gg set gg ecart.dehomogenize pmat ;$ |
| ( ) |
( ) |
| $Example 3: [ [( (x Dx)^2 + (y Dy)^2 -1) ( x y Dx Dy -1)] (x,y) $ |
$Example 3: [ [( (x Dx)^2 + (y Dy)^2 -1) ( x y Dx Dy -1)] (x,y) $ |
| $ [ [ (Dx) 1 (Dy) 1] ] ] ecart.gb pmat ; $ |
$ [ [ (Dx) 1 (Dy) 1] ] ] ecarth.gb pmat ; $ |
| ( ) |
( ) |
| $Example 4: [[ [(x^2) (y+x)] [(x+y) (y^3)] [(2 x^2+x y) (y+x+x y^3)]] (x,y) $ |
$Example 4: [[ [(x^2) (y+x)] [(x+y) (y^3)] [(2 x^2+x y) (y+x+x y^3)]] (x,y) $ |
| $ [ [ (x) -1 (y) -1] [(x) -1 (y) -1 (Dx) 1 (Dy) 1]] ] ecart.gb pmat ; $ |
$ [ [ (x) -1 (y) -1] [(x) -1 (y) -1 (Dx) 1 (Dy) 1]] ] ecarth.gb pmat ; $ |
| ( ) |
( ) |
| $Example 5: [[ [(x^2) (y+x)] [(x+y) (y^3)] [(2 x^2+x y) (y+x+x y^3)]] (x,y) $ |
$Example 5: [[ [(x^2) (y+x)] [(x+y) (y^3)] [(2 x^2+x y) (y+x+x y^3)]] (x,y) $ |
| $ [ [(Dx) 1 (Dy) 1] [(x) -1 (y) -1 (Dx) 1 (Dy) 1] ] [[0 1] [-3 1] ] ] ecart.gb pmat ; (buggy infinite loop)$ |
$ [ [(Dx) 1 (Dy) 1] [(x) -1 (y) -1 (Dx) 1 (Dy) 1] ] [[0 1] [-3 1] ] ] ecarth.gb pmat ; (buggy infinite loop)$ |
| ( ) |
( ) |
| (cf. gb, groebner, ecart.syz, ecart.begin, ecart.end, ecart.homogenize01, ) |
(cf. gb, groebner, ecart.gb, ecartd.gb, ecart.syz, ecart.begin, ecart.end, ecart.homogenize01, ) |
| ( ecart.dehomogenize, ecart.dehomogenizeH) |
( ecart.dehomogenize, ecart.dehomogenizeH) |
| ( [(weightedHomogenization) 1 (degreeShift) [[1 2 1]]] : options for ) |
( [(weightedHomogenization) 1 (degreeShift) [[1 2 1]]] : options for ) |
| ( define_ring ) |
( define_ring ) |
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