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Diff for /OpenXM/src/asir-doc/exp/exp-ja.texi between version 1.55 and 1.58

version 1.55, 2018/03/27 02:58:46

version 1.58, 2020/09/06 03:26:47

Line 1

%% $OpenXM: OpenXM/src/asir-doc/exp/exp-ja.texi,v 1.54 2017/08/31 01:24:33 takayama Exp $

%% $OpenXM: OpenXM/src/asir-doc/exp/exp-ja.texi,v 1.57 2018/10/17 00:33:49 takayama Exp $

\input texinfo-ja

@iftex

@catcode`@#=6

@def@fref#1{@xrefX[#1,,@code{#1},,,]}

@def@b#1{{@bf@gt #1}}

@def@b#1{{@bf #1}}

@catcode`@#=@other

@end iftex

@overfullrule=0pt

Line 12

@comment --- $B$*$^$8$J$$=*$j(B ---

@comment --- GNU info $B%U%!%$%k$NL>A0(B ---

@setfilename xyzman

@setfilename exp

@documentlanguage ja

@comment --- $B%?%$%H%k(B ---

@settitle $B<B83E*;EMM$N4X?t(B

Line 38

Line 39

@title $B<B83E*;EMM$N4X?t(B

@subtitle Risa/Asir $B<B83E*;EMM4X?t@bL@=q(B

@subtitle 1.0 $BHG(B

@subtitle 2014 $BG/(B 12 $B7n(B

@subtitle 2018 $BG/(B 3 $B7n(B

@author by Risa/Asir committers

@page

@vskip 0pt plus 1filll

@end titlepage

@comment --- $B$*$^$8$J$$(B ---

Line 94 ChangeLog $B$N9`L\$O(B www.openxm.org $B$N(B cvswe

Line 95 ChangeLog $B$N9`L\$O(B www.openxm.org $B$N(B cvswe

* dp_weyl_gr_main::

* eval_quote::

* f_res::

* fj_simp.simplify::

* fj_simplify.simplify::

* flatten_quote::

* function::

* get_struct_name get_element_names get_element_at put_element_at::

* getpid::

* initialize_static_variable::

Line 518 ChangeLog

Line 520 ChangeLog

@item

2004-6-26 $B$N7W;;Be?t%;%_%J!<$K$*$$$F(B, $BCf@n$5$s$,(B simplifier $B$K$D$$$F$$$m$$$mLdBjDs5/(B

$B$r$7$?(B ($B7W;;Be?t%;%_%J!<%S%G%*;2>H(B).

@item parse/quote.c $B$N(B {\tt strcut fid_spec fid_spec_tab[] }

@item parse/quote.c $B$N(B strcut fid_spec fid_spec_tab[]

$B$NItJ,$K=q$$$F$"$k7A<0$K(B @code{funargs_to_quote} $B$OJQ49$9$k(B.

@end itemize

Line 2592 ChangeLog

Line 2594 ChangeLog

@comment ****************************************************************

@node function,,, $B8@8l(B

@subsection @code{function}

@findex function

@table @t

@item function $B@k8@$9$k$3$H$K$h$jH!?t7A<0$NITDj85$r@8@.$G$-$k(B.

@end table

@comment --- $B@bL@(B ---

@table @t

@item function $B@k8@$9$k$3$H$K$h$jH!?t7A<0$NITDj85$r@8@.$G$-$k(B.

@item $BHyJ,H!?t(B diff $B$O$3$NH!?t7A<0$NITDj85$NHyJ,$r$d$O$jH!?t7A<0$NITDj85$H$7$F@8@.$9$k(B.

$B$?$H$($P(B f@{1,2@}(x,y) $B$O(B f $B$r(B x $B$K$D$$$F0l3,JPHyJ,(B, y $B$K$D$$$F(B 2$B3,JPHyJ,$7$?$b$N(B.

@item diff $B$O9g@.4X?t$H$7$F$N=hM}$b9T$&(B.

@end table

@example

[1915] function f(x,y);

[1916] F=f(f(x,y),y)$

[1917] diff(F,y);

f@{1,0@}(f(x,y),y)*f@{0,1@}(x,y)+f@{0,1@}(f(x,y),y)

[1918] vtype(f(p,q));

[1919] deg(diff(F,y),f@{0,1@}(x,y));

@end example

@xref{vtype}

@xref{diff}

@comment --- ChangeLog

@noindent

ChangeLog

@itemize @bullet

@item $B$$$D$N(B commit $B$GF3F~$5$l$?$+ITL@(B.

@end itemize

@comment ****************************************************************

@node $B?tO@!&Be?t(B,,, $B<B83E*;EMM$N4X?t(B

@section $B?tO@!&Be?t(B

Line 3127 $J$

Line 3169 $J$

$B$r7W;;$7(B, Gauss $B$ND64v2?HyJ,J}Dx<0$rF3=P$7$?Nc$G$"$k(B. ([SST, Chap 1.3])

@end iftex

@ifinfo

t^{b-1} (1-t)^{c-b-1} (1-xt)^{-a}

t^@{b-1@} (1-t)^@{c-b-1@} (1-xt)^@{-a@}

$B$N(B annihilator

I = D . @{ x(1-x)dx^2+((1-t)dt-(a+b+1)x+c-1)dx-ab,

(1-t)x dx+t(1-t)dt+(2-c)t+b-1, (xt-1)dx+at @}

Line 3144 I = D . @{ x(1-x)dx^2+((1-t)dt-(a+b+1)x+c-1)dx-ab,

Line 3186 I = D . @{ x(1-x)dx^2+((1-t)dt-(a+b+1)x+c-1)dx-ab,

-- generic_bfct_and_gr :0.008001sec(0.006181sec)

generic bfct : [[-1,1],[s,1],[s-a+c-1,1]]

S0 : 0

B_{S0} length : 1

B_@{S0@} length : 1

-- fctr(BF) + base :0sec(0.003848sec)

-- integration_ideal_internal :0sec(0.07707sec)

[[(x^2-x)*dx^2+((a+b+1)*x-c)*dx+b*a],[[[[dt,(-t+1)*dx]],1]]]

Line 3264 I = < dt +(3t^2-1)x, dx+t^3-t >

Line 3306 I = < dt +(3t^2-1)x, dx+t^3-t >

-- generic_bfct_and_gr :0.012sec(0.0129sec)

generic bfct : [[1,1],[s,1],[s-2,1]]

S0 : 2

B_{S0} length : 3

B_@{S0@} length : 3

-- fctr(BF) + base :0.008sec(0.007395sec)

-- integration_ideal_internal :0.012sec + gc : 0.016sec(0.04311sec)

[-27*x^3*dx^3-54*x^2*dx^2+(4*x^3+3*x)*dx+4*x^2-3,27*x^2*dx^4+135*x*dx^3+(-4*x^2+105)*dx^2-16*x*dx-8]

Line 3319 $ I = \langle (n-k+1)E_n-(n+1), (k+1)E_k-(n-k) \rangle

Line 3361 $ I = \langle (n-k+1)E_n-(n+1), (k+1)E_k-(n-k) \rangle

$B$G$"$k$+$i(B, $B$3$l$rF~NO$H$7$F<!$N$h$&$K7W;;$r9T$&(B.

@end iftex

@ifinfo

\sum_{k=a}^b n_C_k

\sum_@{k=a@}^b n_C_k

$B$NHsOB4X?t$NK~$?$9%[%m%N%_%C%/%$%G%"%k$O(B

I = < (n-k+1)E_n-(n+1), (k+1)E_k-(n-k) >

$B$G$"$k$+$i(B, $B$3$l$rF~NO$H$7$F<!$N$h$&$K7W;;$r9T$&(B.

Line 3335 I = < (n-k+1)E_n-(n+1), (k+1)E_k-(n-k) >

Line 3377 I = < (n-k+1)E_n-(n+1), (k+1)E_k-(n-k) >

-- generic_bfct_and_gr :0.01sec(0.007085sec)

generic bfct : [[1,1],[s,1]]

S0 : 0

B_{S0} length : 1

B_@{S0@} length : 1

-- fctr(BF) + base :0.003333sec(0.001785sec)

-- restriction_ideal_internal :0sec(0.002336sec)

[[(en-2)*n+en-2],[[[[ek-1,[(-en+1)*n-en+1,1]]],1]]]

Line 3598 y $B$NCM$,30B&%k!<%W(B, x $B$NCM$,FbB&%k!<%W$N7A<0$

Line 3640 y $B$NCM$,30B&%k!<%W(B, x $B$NCM$,FbB&%k!<%W$N7A<0$

[1590] tk_pfn.testgraph1();

$B$3$3$G(B testgraph1() $B$O0J2<$N$H$*$j(B.

def testgraph1() {

def testgraph1() @{

/* tk_bess2.bess2pf(1/2); */

Pf= [[[ 0, (1)/(x), 0 ],

[ -x, (2*x^2+1)/(x), -2*x ],

Line 3611 def testgraph1() {

Line 3653 def testgraph1() {

Dom=[[0.5,1.5],[1.5,9]];

Step = 0.5;

return tk_pfn.graph(Pf,Dom,Iv,Step | fit=1);

}

@end example

Line 3666 ChangeLog

Line 3708 ChangeLog

$B$3$3$G(B test4() $B$O0J2<$N$H$*$j(B. $B?6F0$NJ}Dx<0(B, y0'=y1, y1'=-y0 (y0''+y0=0). $BEz$O(B y0=cos(x)

taka_plot_auto $B$O2<J}8~$G(B y $B$,@5(B.

def test4() {

def test4() @{

A=runge_kutta_4([y1,-y0],x,[y0,y1],0,[1,0],3.14*2,0.1);

taka_plot_auto(A);

return(A);

}

@end example

Line 3736 ChangeLog

Line 3778 ChangeLog

@node fj_simp.simplify,,, $B<B83E*;EMM$N4X?t(B

@node fj_simplify.simplify,,, $B<B83E*;EMM$N4X?t(B

@subsection @code{fj_simp.simplify}

@subsection @code{fj_simplify.simplify}

@findex fj_simp.simplify

@findex fj_simplify.simplify

@comment --- $B4X?t$N4JC1$J@bL@(B ---

@comment --- @itemx $B$OJ#?t$KBP$7$F@bL@$r0l$D$D$1$k>l9g$K;H$&(B ---

@table @t

@item fj_simp.simplify(@var{arg1})

@item fj_simplify.simplify(@var{arg1})

:: arg1 $B$r4JC12=$9$k(B.

@end table

Line 3755 ChangeLog

Line 3797 ChangeLog

@end table

@itemize @bullet

@item

$B8=:_$N%P!<%8%g%s$G$O(B fj_simp.simplify $B$G$J$/(B, $BC1$K(B simplify $B$H$h$V(B.

@item

$B$3$N4X?t$O(B

Joel S. Cohen, Computer Algebra and Symbolic Computation,

Line 3770 B.F.Caviness, R.J.Fateman, Simplification of Radical E

Line 3810 B.F.Caviness, R.J.Fateman, Simplification of Radical E

@end itemize

@example

load("fj_simplify.rr");

import("fj_simplify.rr");

[1434] simplify((x^(1/2))^3);

[1434] fj_simplify.simplify((x^(1/2))^3);

((x)^(3/2))

[1435] simplify((2^(1/2))^2);

[1435] fj_simplify.simplify((2^(1/2))^2);

[1436] simplify((2+2^(1/2))^3);

[1436] fj_simplify.simplify((2+2^(1/2))^3);

14*((2)^(1/2))+20

[1437] simplify(exp(x)*exp(-x+y));

[1437] fj_simplify.simplify(exp(x)*exp(-x+y));

((@@e)^(y))

@end example

Line 3789 load("fj_simplify.rr");

Line 3829 load("fj_simplify.rr");

@noindent

ChangeLog

@itemize @bullet

@item

$B>-MhE*$K$O(B module $B2=$7$F(B fj_simp module $B$K4^$a$kM=Dj(B.

poly_simplify $B$+$i(B fj_simp.simplify $B$r8F$V(B.

@item

Todo: exp $B0J30$NFC<l4X?t$K$D$$$F$N(Bsimplification $B$N5!G=(B.

@item

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