===================================================================
RCS file: /home/cvs/OpenXM/doc/install.oxweave,v
retrieving revision 1.11
retrieving revision 1.12
diff -u -p -r1.11 -r1.12
--- OpenXM/doc/install.oxweave 2000/01/20 12:55:32 1.11
+++ OpenXM/doc/install.oxweave 2000/01/21 03:19:17 1.12
@@ -1,4 +1,4 @@
-%% $OpenXM: OpenXM/doc/install.oxweave,v 1.10 2000/01/20 09:06:08 takayama Exp $
+%% $OpenXM: OpenXM/doc/install.oxweave,v 1.11 2000/01/20 12:55:32 takayama Exp $
OpenXM/doc/install.oxweave
/*&C
@@ -296,28 +296,7 @@ xm Version 20000116. ox_help(0); ox_help("keyword"); f
[270]
*/
-/*&jp
---------------- 例 : asir より tigers を呼び出す.
-asir
-load("xm");
-tigers_start();
-B = tigers(0,[[1,1,1,1],[0,1,2,3]]);
-length(B) は 8 です. これは, 行列 A = [[1,1,1,1],[0,1,2,3]]
-に付随した, toric ideal I_A の Grobner fan が 8 つの maximal
-dimensional fan を持つことを意味します.
-A[i] は i 番目の GB (グレブナ基底)です.
-Binomial polynomial x^a-x^b を [[a_1, ..., a_n],[b_1, ..., b_n]] なる形式で
-表示します.
-たとえば A[0];
-[[[1,0,1,0],[0,2,0,0]],[[1,0,0,1],[0,1,1,0]],[[0,1,0,1],[0,0,2,0]]]
-ですから,
-x1 x3 - x2^2, x1 x4 - x2 x3, x2 x4 - x3^2
-が GB であり, initial ideal は
-x1 x3 , x1 x4 , x2 x4
-で生成されています.
-*/
-
/*&C
-------------------------------------- call ox_asir from sm1
sm1
@@ -381,10 +360,22 @@ See OpenXM/Copyright.
/*&jp なお, OpenXM/src/ox_math のコンパイルおよび利用には Mathematica が,
OpenXM/src/OpenMath のコンパイルおよび利用には
には, jdk (java 環境) が必要です.
+
+Documents を生成するには, tex, ptex (ascii 日本語 tex), dvips, texinfo,
+texi2html, nkf,
+が必要です. 詳しくは Makefiles を見て下さい.
+Document は, binary distribution の OpenXM/doc, OpenXM/lib
+より得るのが簡単です.
*/
/*&eg In order to use and compile OpenXM/src/ox_math, you need Mathematica.
In order to use and compile OpenXM/src/OpenMath,
you need jdk (java environment).
+
+In order to generate the full documentation including Japanese documents,
+you need tex, ptex (ASCII Inc. Japanese tex), dvips, texinfo, texi2html,
+nkf. See each Makefile.
+The generated documents are in OpenXM/doc and OpenXM/lib
+in the binary distribution.
*/
/*&C