| version 1.4, 2010/06/16 08:53:03 |
version 1.6, 2010/06/19 09:43:45 |
|
|
| %comment $OpenXM: OpenXM/src/asir-contrib/packages/doc/nn_ndbf/nn_ndbf.texi,v 1.3 2009/12/02 04:59:13 noro Exp $ |
%comment $OpenXM: OpenXM/src/asir-contrib/packages/doc/nn_ndbf/nn_ndbf.texi,v 1.5 2010/06/16 10:39:08 noro Exp $ |
| %comment --- おまじない --- |
%comment --- おまじない --- |
| \input ../../../../asir-doc/texinfo |
\input ../../../../asir-doc/texinfo |
| @iftex |
@iftex |
| Line 90 In this manual we explain about a new b-function packa |
|
| Line 90 In this manual we explain about a new b-function packa |
|
| in asir-contrib. To use this package one has to load @samp{nn_ndbf.rr}. |
in asir-contrib. To use this package one has to load @samp{nn_ndbf.rr}. |
| \E |
\E |
| @example |
@example |
| [1518] load("nn_ndbf.rr"); |
[...] load("nn_ndbf.rr"); |
| @end example |
@end example |
| \BJP |
\BJP |
| このパッケージの函数を呼び出すには, 全て @code{ndbf.} を先頭につける. |
このパッケージの函数を呼び出すには, 全て @code{ndbf.} を先頭につける. |
| Line 116 In this manual we also explain about some related buil |
|
| Line 116 In this manual we also explain about some related buil |
|
| * ndbf.bfunction:: |
* ndbf.bfunction:: |
| * ndbf.bf_local:: |
* ndbf.bf_local:: |
| * ndbf.bf_strat:: |
* ndbf.bf_strat:: |
| |
* ndbf.action_on_gfs:: |
| @end menu |
@end menu |
| |
|
| \JP @node ndbf.bfunction,,, b 関数計算 |
\JP @node ndbf.bfunction,,, b 関数計算 |
| Line 156 In this manual we also explain about some related buil |
|
| Line 157 In this manual we also explain about some related buil |
|
| された場合, 大域 b 関数 @var{b}, および |
された場合, 大域 b 関数 @var{b}, および |
| 微分作用素 @var{P} の組 @var{[b,P]} を返す. これらは |
微分作用素 @var{P} の組 @var{[b,P]} を返す. これらは |
| @var{Pf^(s+1)=b(s)f^s} を満たす. |
@var{Pf^(s+1)=b(s)f^s} を満たす. |
| |
微分作用素は @var{v1,...,vn,dv1,...,dvn} の可換多項式として |
| |
表現されている. この表現においては, 微分を表す d のついた変数も単なる |
| |
不定元として扱われているため, 係数多項式環の変数の前に表示されることも |
| |
ありうるが, 多項式係数を左に置く正規表現として理解する必要がある. |
| @item |
@item |
| オプション @code{weight=[@var{v1,w1,...,vn,wn}]} が指定された場合, |
オプション @code{weight=[@var{v1,w1,...,vn,wn}]} が指定された場合, |
| 変数リスト @var{(v1,...,vn)} に対して weight @var{(w1,...,wn)} |
変数リスト @var{(v1,...,vn)} に対して weight @var{(w1,...,wn)} |
| Line 178 By default only the global b-function is returned. |
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| Line 183 By default only the global b-function is returned. |
|
| If an option @code{op=1} is given, |
If an option @code{op=1} is given, |
| a pair @var{[b,P]} of the global b-function and |
a pair @var{[b,P]} of the global b-function and |
| a differential operator satisfying @var{Pf^(s+1)=b(s)f^s}. |
a differential operator satisfying @var{Pf^(s+1)=b(s)f^s}. |
| |
The operator P is represented as a commutative polynomial |
| |
of variables @var{v1,...,vn,dv1,...,dvn}. The d-variables |
| |
are treated as commutative indeterminates in this representation and |
| |
the polynomial should be regarded as a canonical representation with each polynomial coefficient |
| |
placed at the left of d-variables. |
| @item |
@item |
| If an option @code{weight=[@var{v1,w1,...,vn,wn}]} is given, |
If an option @code{weight=[@var{v1,w1,...,vn,wn}]} is given, |
| the computation is done with a weight @var{(w1,...,wn)} for @var{(v1,...,vn)}. |
the computation is done with a weight @var{(w1,...,wn)} for @var{(v1,...,vn)}. |
| Line 192 If an option @code{vord=@var{v}} is given, a variable |
|
| Line 202 If an option @code{vord=@var{v}} is given, a variable |
|
| \E |
\E |
| @end itemize |
@end itemize |
| @example |
@example |
| [1519] load("nn_ndbf.rr"); |
[...] load("nn_ndbf.rr"); |
| [1602] ndbf.bfunction(x^3-y^2*z^2); |
[...] ndbf.bfunction(x^3-y^2*z^2); |
| -11664*s^7-93312*s^6-316872*s^5-592272*s^4-658233*s^3-435060*s^2 |
-11664*s^7-93312*s^6-316872*s^5-592272*s^4-658233*s^3-435060*s^2 |
| -158375*s-24500 |
-158375*s-24500 |
| [1603] F=256*u1^3-128*u3^2*u1^2+(144*u3*u2^2+16*u3^4)*u1-27*u2^4 |
[...] ndbf.bfunction(x^3-y^2*z^2|op=1); |
| |
[-11664*s^7-93312*s^6-316872*s^5-592272*s^4-658233*s^3-435060*s^2 |
| |
-158375*s-24500,(108*z^3*x*dz^3+756*z^2*x*dz^2+1080*z*x*dz+216*x)*dx^4 |
| |
... |
| |
+(729/8*z^3*dz^5+9477/8*z^2*dz^4+5103/2*z*dz^3+2025/2*dz^2)*dy^2] |
| |
[...] F=256*u1^3-128*u3^2*u1^2+(144*u3*u2^2+16*u3^4)*u1-27*u2^4 |
| -4*u3^3*u2^2$ |
-4*u3^3*u2^2$ |
| [1604] ndbf.bfunction(F|weight=[u3,2,u2,3,u1,4]); |
[...] ndbf.bfunction(F|weight=[u3,2,u2,3,u1,4]); |
| 576*s^6+3456*s^5+8588*s^4+11312*s^3+8329*s^2+3250*s+525 |
576*s^6+3456*s^5+8588*s^4+11312*s^3+8329*s^2+3250*s+525 |
| @end example |
@end example |
| |
|
| Line 244 If an option @code{vord=@var{v}} is given, a variable |
|
| Line 259 If an option @code{vord=@var{v}} is given, a variable |
|
| デフォルトでは局所 b 関数のみが出力されるが, オプション @code{op=1} が指定 |
デフォルトでは局所 b 関数のみが出力されるが, オプション @code{op=1} が指定 |
| された場合, 局所 b 関数 @var{b}, 微分作用素の共通分母 $a(x)$ および |
された場合, 局所 b 関数 @var{b}, 微分作用素の共通分母 $a(x)$ および |
| 微分作用素 @var{P} の組 @var{[b,a(x),P]} を返す. これらは |
微分作用素 @var{P} の組 @var{[b,a(x),P]} を返す. これらは |
| @var{a(x)Pf^(s+1)=b(s)f^s} |
@var{a(x)Pf^(s+1)=b(s)f^s} を満たす. |
| を満たす. 微分作用素は @var{v1,...,vn,dv1,...,dvn} の可換多項式として |
微分作用素は @var{v1,...,vn,dv1,...,dvn} の可換多項式として |
| 表現されている. この表現においては, 微分を表す d のついた変数も単なる |
表現されている. この表現においては, 微分を表す d のついた変数も単なる |
| 不定元として扱われているため, 係数多項式環の変数の前に表示されることも |
不定元として扱われているため, 係数多項式環の変数の前に表示されることも |
| ありうるが, 多項式係数を左に置く正規表現として理解する必要がある. |
ありうるが, 多項式係数を左に置く正規表現として理解する必要がある. |
| Line 278 If an option @code{op=1} is given, |
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| Line 293 If an option @code{op=1} is given, |
|
| a triple @var{[b,a,P]} of the local b-function, a polynomial and |
a triple @var{[b,a,P]} of the local b-function, a polynomial and |
| a differential operator satisfying @var{Pf^(s+1)=ab(s)f^s}. |
a differential operator satisfying @var{Pf^(s+1)=ab(s)f^s}. |
| The operator P is represented as a commutative polynomial |
The operator P is represented as a commutative polynomial |
| of variables @var{v1,...,vn,dv1,...,dvn}. Although the d-variables |
of variables @var{v1,...,vn,dv1,...,dvn}. The d-variables |
| are treated as commutative indeterminates in this representation, |
are treated as commutative indeterminates in this representation, |
| it should be regarded as a canonical representation with each polynomial coefficient |
the polynomial should be regarded as a canonical representation with each polynomial coefficient |
| placed at the left of d-variables. |
placed at the left of d-variables. |
| @item |
@item |
| If an option @code{weight=[@var{v1,w1,...,vn,wn}]} is given, |
If an option @code{weight=[@var{v1,w1,...,vn,wn}]} is given, |
| Line 298 If an option @code{vord=@var{v}} is given, a variable |
|
| Line 313 If an option @code{vord=@var{v}} is given, a variable |
|
| \E |
\E |
| |
|
| @example |
@example |
| [1527] load("nn_ndbf.rr"); |
[...] load("nn_ndbf.rr"); |
| [1610] ndbf.bf_local(y*((x+1)*x^3-y^2),[x,-1,y,0]); |
[...] ndbf.bf_local(y*((x+1)*x^3-y^2),[x,-1,y,0]); |
| [[-s-1,2]] |
[[-s-1,2]] |
| [1611] ndbf.bf_local(y*((x+1)*x^3-y^2),[x,-1,y,0]|op=1); |
[...] ndbf.bf_local(y*((x+1)*x^3-y^2),[x,-1,y,0]|op=1); |
| [[[-s-1,2]],12*x^3+36*y^2*x-36*y^2,(32*y*x^2+56*y*x)*dx^2 |
[[[-s-1,2]],12*x^3+36*y^2*x-36*y^2,(32*y*x^2+56*y*x)*dx^2 |
| +((-8*x^3-2*x^2+(128*y^2-6)*x+112*y^2)*dy+288*y*x+(-240*s-128)*y)*dx |
+((-8*x^3-2*x^2+(128*y^2-6)*x+112*y^2)*dy+288*y*x+(-240*s-128)*y)*dx |
| +(32*y*x^2-6*y*x+128*y^3-9*y)*dy^2+(32*x^2+6*s*x+640*y^2+39*s+30)*dy |
+(32*y*x^2-6*y*x+128*y^3-9*y)*dy^2+(32*x^2+6*s*x+640*y^2+39*s+30)*dy |
| Line 384 If an option @code{vord=@var{v}} is given, a variable |
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| Line 399 If an option @code{vord=@var{v}} is given, a variable |
|
| \E |
\E |
| |
|
| @example |
@example |
| [1537] load("nn_ndbf.rr"); |
[...] load("nn_ndbf.rr"); |
| [1620] F=256*u1^3-128*u3^2*u1^2+(144*u3*u2^2+16*u3^4)*u1-27*u2^4 |
[...] F=256*u1^3-128*u3^2*u1^2+(144*u3*u2^2+16*u3^4)*u1-27*u2^4 |
| -4*u3^3*u2^2$ |
-4*u3^3*u2^2$ |
| [1621] ndbf.bf_strat(F); |
[...] ndbf.bf_strat(F); |
| [[u3^2,-u1,-u2],[-1],[[-s-1,2],[16*s^2+32*s+15,1],[36*s^2+72*s+35,1]]] |
[[[u3^2,-u1,-u2],[-1],[[-s-1,2],[16*s^2+32*s+15,1],[36*s^2+72*s+35,1]]], |
| [[-4*u1+u3^2,-u2],[96*u1^2+40*u3^2*u1-9*u3*u2^2,...],[[-s-1,2]]] |
[[-4*u1+u3^2,-u2],[96*u1^2+40*u3^2*u1-9*u3*u2^2,...],[[-s-1,2]]], |
| [[...],[-u3*u2,u2*u1,...],[[-s-1,1],...]]] |
[[-2048*u1^3-...],[-u3*u2,u2*u1,...],[[-s-1,1],...]]], |
| [[-256*u1^3+128*u3^2*u1^2+...],[...],[[-s-1,1]]] |
[[-256*u1^3+128*u3^2*u1^2+...],[...],[[-s-1,1]]], |
| [[],[-256*u1^3+128*u3^2*u1^2+...],[]] |
[[],[-256*u1^3+128*u3^2*u1^2+...],[]]] |
| @end example |
@end example |
| |
|
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\JP @node ndbf.action_on_gfs,,, b 関数計算 |
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\EG @node ndbf.action_on_gfs,,, Computation of b-function |
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@subsection @code{ndbf.action_on_gfs} |
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@findex ndbf.action_on_gfs |
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|
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@table @t |
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@item ndbf.action_on_gfs(@var{op},@var{v},@var{gfs}) |
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\JP :: 微分作用素 @var{op} の @var{gf^(s+a)} への作用を計算する. |
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\EG :: computes the action of an operatior @var{op} on @var{gf^(s+a)} |
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@end table |
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|
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@table @var |
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@item return |
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\JP リスト |
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\EG a list |
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@item op |
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\JP 微分作用素 |
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\EG a differential operator |
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@item gfs |
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\JP @var{[g,f,s+a]} なるリスト |
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\EG a list @var{[g,f,s+a]} |
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@item v |
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\JP @var{f} の変数のリスト (@var{v=[v1,...,vn]}) |
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\EG list of variables of @var{f} (@var{v=[v1,...,vn]}) |
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@end table |
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|
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\BJP |
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@itemize @bullet |
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@item 微分作用素 @var{op} を @var{gf^(s+a)} に作用させた結果を計算する. |
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@item @var{g} は @var{v1,...,vn} を変数とする多項式である. |
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@item @var{op} は @var{[v1,...,vn,dv1,...,dvn]} を変数とする多項式で表現する. |
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@item 入力リスト @var{[g,f,s+a]} は @var{gf^(s+a)} を表す. |
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@item 結果は @var{[h,f,s+c]} なるリストで, @var{hf^(s+b)} を |
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意味する. ここで @var{c} は整数である. |
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@var{op} が b-関数 @var{b(s)} を与える作用素なら, |
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@var{a=1} に対し @var{c=0} で, @var{h=b(s)} (global case) または |
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@var{h=d(v)b(s)} (local case) である. |
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@end itemize |
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\E |
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|
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\BEG |
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@itemize @bullet |
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@item This function computes the action of a differential operator |
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@var{op} on @var{gf^(s+a)}. |
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@item @var{g} is a polynomial with variables @var{v1,...,vn}. |
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@item @var{op} is represented by a polynonmial with @var{[v1,...,vn,dv1,...,dvn]}. |
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@item The input list @var{[g,f,s+a]} represents @var{gf^(s+a)}. |
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@item The result is a list @var{[h,f,s+c]} and it means @var{hf^(s+c)}, |
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where @var{c} is an integer. If @var{op} is an operator giving b-function |
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@var{b(s)}, |
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then @var{c=0} for @var{a=1} and @var{h=b(s)} (global case) |
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or @var{h=b(s)d(v)} (local case). |
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@end itemize |
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\E |
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|
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@example |
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[...] load("nn_ndbf.rr"); |
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[...] F=x^5-y^2*z^2$ |
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[...] B=ndbf.bfunction(F|op=1)$ |
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[...] ndbf.action_on_gfs(B[1],[x,y,z],[1,F,s+1]); |
| |
[-62500000000*s^13-...-2985505717194*s-245434132944,x^5-z^2*y^2,s] |
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[...] L=ndbf.bf_local(F,[x,0,y,0,z,1]|op=1)$ |
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[...] ndbf.action_on_gfs(L[2],[x,y,z],[1,F,s+1]); |
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[(-100000*s^5-500000*s^4-990000*s^3-970000*s^2-470090*s-90090)*z^2, |
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x^5-z^2*y^2,s] |
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@end example |
| |
|
| \JP @node Annihilator イデアル計算,,, 新 b 関数パッケージ nn_ndbf.rr |
\JP @node Annihilator イデアル計算,,, 新 b 関数パッケージ nn_ndbf.rr |
| \EG @node Computation of annihilator ideal,,, New b-function package nn_ndbf.rr |
\EG @node Computation of annihilator ideal,,, New b-function package nn_ndbf.rr |
| \JP @section Annihilator イデアル計算 |
\JP @section Annihilator イデアル計算 |
| Line 457 This option is useful when @var{f} is weighted homogen |
|
| Line 539 This option is useful when @var{f} is weighted homogen |
|
| \E |
\E |
| |
|
| @example |
@example |
| [1542] load("nn_ndbf.rr"); |
[...] load("nn_ndbf.rr"); |
| [1625] ndbf.ann(x*y*z*(x^3-y^2*z^2)); |
[...] ndbf.ann(x*y*z*(x^3-y^2*z^2)); |
| [(-x^4*dy^2+3*z^4*x*dz^2+12*z^3*x*dz+6*z^2*x)*dx+4*z*x^3*dz*dy^2 |
[(-x^4*dy^2+3*z^4*x*dz^2+12*z^3*x*dz+6*z^2*x)*dx+4*z*x^3*dz*dy^2 |
| -z^5*dz^3-6*z^4*dz^2-6*z^3*dz, |
-z^5*dz^3-6*z^4*dz^2-6*z^3*dz, |
| (x^4*dy-3*z^3*y*x*dz-6*z^2*y*x)*dx-4*z*x^3*dz*dy+z^4*y*dz^2+3*z^3*y*dz, |
(x^4*dy-3*z^3*y*x*dz-6*z^2*y*x)*dx-4*z*x^3*dz*dy+z^4*y*dz^2+3*z^3*y*dz, |
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