japanese translation updated.
[scilab.git] / scilab / modules / elementary_functions / help / ja_JP / matrixmanipulation / repmat.xml
index 1d3fdaf..6ab3f9b 100644 (file)
@@ -1,4 +1,5 @@
 <?xml version="1.0" encoding="UTF-8"?>
+
 <!--
  * Scilab ( http://www.scilab.org/ ) - This file is part of Scilab
  * Copyright (C) 2011 - INRIA - Serge Steer
  * This source file is licensed as described in the file COPYING, which
  * you should have received as part of this distribution.  The terms
  * are also available at    
- * http://www.cecill.info/licences/Licence_CeCILL_V2-en.txt
+ * http://www.cecill.info/licences/Licence_CeCILL_V2.1-en.txt
  *
  -->
-<refentry version="5.0-subset Scilab" xml:id="repmat" xml:lang="ja"
-          xmlns="http://docbook.org/ns/docbook"
-          xmlns:xlink="http://www.w3.org/1999/xlink"
-          xmlns:svg="http://www.w3.org/2000/svg"
-          xmlns:ns5="http://www.w3.org/1999/xhtml"
-          xmlns:mml="http://www.w3.org/1998/Math/MathML"
-          xmlns:db="http://docbook.org/ns/docbook">
-  <info>
-    <pubdate>$LastChangedDate: 2011-01-12  (mer, 12 jan 2011)
-    $</pubdate>
-  </info>
-
-  <refnamediv>
-    <refname>repmat</refname>
-
-    <refpurpose>配列を複製/タイル状に配置</refpurpose>
-  </refnamediv>
-
-  <refsynopsisdiv>
-    <title>呼び出し手順</title>
-
-    <synopsis>B = repmat(A,m,n,...)</synopsis>
-    <synopsis>B = repmat(A,siz)</synopsis>
-    <synopsis>B = repmat(A,m)</synopsis>
-  </refsynopsisdiv>
-
-  <refsection>
-    <title>引数</title>
-
-    <variablelist>
-      <varlistentry>
-        <term>A</term>
-
-        <listitem>
-          <para>入力二次元配列.</para>
-        </listitem>
-      </varlistentry>
-
-      <varlistentry>
-        <term>m, n, ...</term>
-        <listitem>
-          <para>整数で, <literal>B</literal>の各次元に関する
-               <literal>A</literal> ブロックの数.</para>
-        </listitem>
-      </varlistentry>
-
-      <varlistentry>
-        <term>siz</term>
-
-        <listitem>
-          <para>整数ベクトルで, 各要素は<literal>B</literal>の対応する次元に
-       関する<literal>A</literal>ブロックの数を指定する.</para>
-        </listitem>
-      </varlistentry>
-
-
-      <varlistentry>
-        <term>B</term> 
-
-        <listitem>
-          <para>
-               2次元配列<literal>A</literal>をタイル状に配置した
-               配列.</para>
-        </listitem>
-      </varlistentry>
-    </variablelist>
-  </refsection>
-
-  <refsection>
-    <title>説明</title>
 
-    <para><literal>repmat(A,m,n)</literal> または同様な
-    <literal>repmat(A,[m,n])</literal> は,<literal>A</literal>の
-       <literal>m</literal> x <literal>n</literal> のタイル状の
-       コピーからなる大きな行列を返します.
-       結果の大きさは,<literal>[size(A,1)*M, size(A,2)*N]</literal>です.</para>
-
-    <para><literal>repmat(A,m)</literal> は,
-    <literal>m</literal> x <literal>m</literal>のタイル状コピーを作成します.</para>
-
-
-    <para><literal>repmat(A,[m n p ...])</literal> は,配列Aをタイル状に
-       コピーし,<literal>A</literal>のコピーからなる多次元配列を作成します.
-       結果の大きさは,
-    <literal>[size(A,1)*M, size(A,2)*N, size(A,3)*P, ...] </literal>となります.</para>
-
-
-    <para>
-       現時点では,実数,整数,論理値,文字列,多項式,有理数および
-       疎行列の配列のみがサポートされています.
-       この関数の定義は,オーバーロード機能により拡張することができます.</para>
-  </refsection>
-
-  <refsection>
-    <title>例</title>
-
-    <programlisting role="example"><![CDATA[ 
+<refentry xmlns="http://docbook.org/ns/docbook" xmlns:xlink="http://www.w3.org/1999/xlink" xmlns:svg="http://www.w3.org/2000/svg" xmlns:ns5="http://www.w3.org/1999/xhtml" xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:db="http://docbook.org/ns/docbook" xmlns:scilab="http://www.scilab.org" xml:id="repmat" xml:lang="ja">
+    
+    <refnamediv>
+        
+        <refname>repmat</refname>
+        
+        <refpurpose>配列を複製/タイル状に配置</refpurpose>
+        
+    </refnamediv>
+    
+    <refsynopsisdiv>
+        
+        <title>呼び出し手順</title>
+        
+        <synopsis>B = repmat(A,m,n,...)</synopsis>
+        
+        <synopsis>B = repmat(A,siz)</synopsis>
+        
+        <synopsis>B = repmat(A,m)</synopsis>
+        
+    </refsynopsisdiv>
+    
+    <refsection>
+        
+        <title>引数</title>
+        
+        <variablelist>
+            
+            <varlistentry>
+                
+                <term>A</term>
+                
+                <listitem>
+                    
+                    <para>入力二次元配列.</para>
+                    
+                </listitem>
+                
+            </varlistentry>
+            
+            <varlistentry>
+                
+                <term>m, n, ...</term>
+                
+                <listitem>
+                    
+                    <para>
+                        
+                        整数で, <literal>B</literal>の各次元に関する
+                        
+                        <literal>A</literal> ブロックの数.
+                        
+                    </para>
+                    
+                </listitem>
+                
+            </varlistentry>
+            
+            <varlistentry>
+                
+                <term>siz</term>
+                
+                <listitem>
+                    
+                    <para>
+                        
+                        整数ベクトルで, 各要素は<literal>B</literal>の対応する次元に
+                        
+                        関する<literal>A</literal>ブロックの数を指定する.
+                        
+                    </para>
+                    
+                </listitem>
+                
+            </varlistentry>
+            
+            <varlistentry>
+                
+                <term>B</term>
+                
+                <listitem>
+                    
+                    <para>
+                        
+                        2次元配列<literal>A</literal>をタイル状に配置した
+                        
+                        配列.
+                        
+                    </para>
+                    
+                </listitem>
+                
+            </varlistentry>
+            
+        </variablelist>
+        
+    </refsection>
+    
+    <refsection>
+        
+        <title>説明</title>
+        
+        <para>
+            
+            <literal>repmat(A,m,n)</literal> または同様な
+            
+            <literal>repmat(A,[m,n])</literal> は,<literal>A</literal>の
+            
+            <literal>m</literal> x <literal>n</literal> のタイル状の
+            
+            コピーからなる大きな行列を返します.
+            
+            結果の大きさは,<literal>[size(A,1)*M, size(A,2)*N]</literal>です.
+            
+        </para>
+        
+        <para>
+            
+            <literal>repmat(A,m)</literal> は,
+            
+            <literal>m</literal> x <literal>m</literal>のタイル状コピーを作成します.
+            
+        </para>
+        
+        <para>
+            
+            <literal>repmat(A,[m n p ...])</literal> は,配列Aをタイル状に
+            
+            コピーし,<literal>A</literal>のコピーからなる多次元配列を作成します.
+            
+            結果の大きさは,
+            
+            <literal>[size(A,1)*M, size(A,2)*N, size(A,3)*P, ...] </literal>となります.
+            
+        </para>
+        
+        <para>
+            
+            現時点では,実数,整数,論理値,文字列,多項式,有理数および
+            
+            疎行列の配列のみがサポートされています.
+            
+            この関数の定義は,オーバーロード機能により拡張することができます.
+            
+        </para>
+        
+    </refsection>
+    
+    <refsection>
+        
+        <title>例</title>
+        
+        <programlisting role="example"><![CDATA[ 
     repmat(1:3,2,2)
     repmat(int8([1 0 1;0 1 0]),2,3,2)
     repmat("Scilab",3,2)
     repmat([1/%s;2/(%s+1)],1,3)
 
  ]]></programlisting>
-  </refsection>
-
-  <refsection>
-    <title>参照</title>
-
-    <simplelist type="inline">
-      <member><link linkend="matrix">matrix</link></member>
-
-      <member><link linkend="extraction">extraction</link></member>
-
-      <member><link linkend="size">size</link></member>
-    </simplelist>
-  </refsection>
-
-  <refsection>
-    <title>作者</title>
-
-    <para>Serge Steer, INRIA</para>
-  </refsection>
+        
+    </refsection>
+    
+    <refsection>
+        
+        <title>参照</title>
+        
+        <simplelist type="inline">
+            
+            <member>
+                
+                <link linkend="matrix">matrix</link>
+                
+            </member>
+            
+            <member>
+                
+                <link linkend="extraction">extraction</link>
+                
+            </member>
+            
+            <member>
+                
+                <link linkend="size">size</link>
+                
+            </member>
+            
+        </simplelist>
+        
+    </refsection>
+    
+    <refsection>
+        
+        <title>履歴</title>
+        
+        <revhistory>
+            
+            <revision>
+                
+                <revnumber>5.3.1</revnumber>
+                
+                <revremark>関数 repmat が導入されました.</revremark>
+                
+            </revision>
+            
+        </revhistory>
+        
+    </refsection>
+    
 </refentry>
+