===================================================================
RCS file: /home/cvs/OpenXM/src/asir-contrib/packages/doc/Attic/Matrix.texi,v
retrieving revision 1.2
retrieving revision 1.3
diff -u -p -r1.2 -r1.3
--- OpenXM/src/asir-contrib/packages/doc/Attic/Matrix.texi	1999/11/29 05:01:42	1.2
+++ OpenXM/src/asir-contrib/packages/doc/Attic/Matrix.texi	2000/01/03 09:15:53	1.3
@@ -3,19 +3,19 @@
 @section Matrix operations
 ファイル @file{gr} が必要です.
 @menu
-* mat_1::
-* mat_diag::
-* mat_trans::
-* mat_inverse::
-* mat_solve::
-* mat_kernel::
+* matrix_1::
+* matrix_diag::
+* matrix_trans::
+* matrix_inverse::
+* matrix_solve::
+* matrix_kernel::
 @end menu
 
-@node mat_1,,, Matrix operations
-@subsection @code{mat_1}
-@findex mat_1
+@node matrix_1,,, Matrix operations
+@subsection @code{matrix_1}
+@findex matrix_1
 @table @t
-@item mat_1(@var{N})
+@item matrix_1(@var{N})
 ::  @var{N} 次単位行列を生成します.
 @end table
 @table @var
@@ -25,27 +25,27 @@
 整数
 @end table
 @itemize @bullet
-@item  @code{mat_1}の例.
+@item  @code{matrix_1}の例.
 @end itemize
 @example
-[297] mat_1(1);
+[297] matrix_1(1);
 [ 1 ]
 
-[298] mat_1(2);
+[298] matrix_1(2);
 [ 1 0 ]
 [ 0 1 ]
 
-[299] mat_1(3);
+[299] matrix_1(3);
 [ 1 0 0 ]
 [ 0 1 0 ]
 [ 0 0 1 ]
 @end example
 
-@node mat_diag,,, Matrix operations
-@subsection @code{mat_diag}
-@findex mat_diag
+@node matrix_diag,,, Matrix operations
+@subsection @code{matrix_diag}
+@findex matrix_diag
 @table @t
-@item mat_diag(@var{L})
+@item matrix_diag(@var{L})
 ::  リスト @var{L} の要素を対角成分とする対角行列を生成します.
 @end table
 @table @var
@@ -55,25 +55,25 @@
 リスト
 @end table
 @itemize @bullet
-@item  @code{mat_diag}の例.
+@item  @code{matrix_diag}の例.
 @end itemize
 @example
-[301] mat_diag([1,2,3]);
+[301] matrix_diag([1,2,3]);
 [ 1 0 0 ]
 [ 0 2 0 ]
 [ 0 0 3 ]
 
-[302] mat_diag([a,b,c]);
+[302] matrix_diag([a,b,c]);
 [ a 0 0 ]
 [ 0 b 0 ]
 [ 0 0 c ]
 @end example
 
-@node mat_trans,,, Matrix operations
-@subsection @code{mat_trans}
-@findex mat_trans
+@node matrix_trans,,, Matrix operations
+@subsection @code{matrix_trans}
+@findex matrix_trans
 @table @t
-@item mat_trans(@var{A})
+@item matrix_trans(@var{A})
 ::  行列 @var{A} の転置行列を求めます.
 @end table
 @table @var
@@ -83,24 +83,24 @@
 行列 or リスト
 @end table
 @itemize @bullet
-@item  @code{mat_trans}の例.
+@item  @code{matrix_trans}の例.
 @end itemize
 @example
-[303] mat_trans([[a,b],[c,d]]);
+[303] matrix_trans([[a,b],[c,d]]);
 [ a c ]
 [ b d ]
 
-[304] mat_trans([[1,2,3],[4,5,6],[7,8,9]]);
+[304] matrix_trans([[1,2,3],[4,5,6],[7,8,9]]);
 [ 1 4 7 ]
 [ 2 5 8 ]
 [ 3 6 9 ]
 @end example
 
-@node mat_inverse,,, Matrix operations
-@subsection @code{mat_inverse}
-@findex mat_inverse
+@node matrix_inverse,,, Matrix operations
+@subsection @code{matrix_inverse}
+@findex matrix_inverse
 @table @t
-@item mat_inverse(@var{A})
+@item matrix_inverse(@var{A})
 ::  行列 @var{A} の逆行列を求めます.
 @end table
 @table @var
@@ -111,24 +111,24 @@
 @end table
 @itemize @bullet
 @item 行列 @var{A} の成分は有理数 or 多項式.
-@item @code{mat_inverse}の例.
+@item @code{matrix_inverse}の例.
 @end itemize
 @example
-[309] mat_inverse([[1,1],[1,2]]);
+[309] matrix_inverse([[1,1],[1,2]]);
 [ 2 -1 ]
 [ -1 1 ]
 
-[310] mat_inverse([[a,b],[c,d]]);
+[310] matrix_inverse([[a,b],[c,d]]);
 [ (d)/(d*a-c*b) (-b)/(d*a-c*b) ]
 [ (-c)/(d*a-c*b) (a)/(d*a-c*b) ]
 @end example
 
-@node mat_solve,,, Matrix operations
-@subsection @code{mat_solve}
-@findex mat_solve
+@node matrix_solve,,, Matrix operations
+@subsection @code{matrix_solve}
+@findex matrix_solve
 @table @t
-@item mat_solve(@var{A},@var{X},@var{Y})
-::  @code{mat_solve}は方程式 A*X=Y の解を求めます.
+@item matrix_solve(@var{A},@var{X},@var{Y})
+::  @code{matrix_solve}は方程式 A*X=Y の解を求めます.
 @end table
 @table @var
 @item return
@@ -142,22 +142,22 @@
 @end table
 @itemize @bullet
 @item 行列 @var{A} の成分は有理数 or 多項式.
-@item  @code{mat_solve}の例.
+@item  @code{matrix_solve}の例.
 @end itemize
 @example
-[376] mat_solve([[1,-1],[2,3]],[x,y],[1,1]);
+[376] matrix_solve([[1,-1],[2,3]],[x,y],[1,1]);
 [[x,4/5],[y,-1/5]]
 
-[377] mat_solve([[a,b],[c,d]],[x,y],[1,1]);
+[377] matrix_solve([[a,b],[c,d]],[x,y],[1,1]);
 [[x,(-b+d)/(d*a-c*b)],[y,(a-c)/(d*a-c*b)]]
 @end example
 
-@node mat_kernel,,, Matrix operations
-@subsection @code{mat_kernel}
-@findex mat_kernel
+@node matrix_kernel,,, Matrix operations
+@subsection @code{matrix_kernel}
+@findex matrix_kernel
 @table @t
-@item mat_kernel(@var{A})
-::  @code{mat_kernel}は行列 A の kernel の基底を求めます.
+@item matrix_kernel(@var{A})
+::  @code{matrix_kernel}は行列 A の kernel の基底を求めます.
 @end table
 @table @var
 @item return
@@ -167,12 +167,12 @@
 @end table
 @itemize @bullet
 @item 行列 @var{A} の成分は有理数 or 多項式.
-@item  @code{mat_kernel}の例.
+@item  @code{matrix_kernel}の例.
 @end itemize
 @example
-[383] mat_kernel([[1,2,3,4],[1,0,1,0]]);
+[383] matrix_kernel([[1,2,3,4],[1,0,1,0]]);
 [2,[[1,0,-1,1/2],[0,1,0,-1/2]]]
 
-[384] mat_kernel([[1,2,3,4],[1,0,1,0],[0,0,0,1]]);
+[384] matrix_kernel([[1,2,3,4],[1,0,1,0],[0,0,0,1]]);
 [1,[[1,1,-1,0]]]
 @end example