[doc] role='see also': improved support in native and toolboxes pages 90/20490/5
Samuel GOUGEON [Sun, 9 Sep 2018 13:29:32 +0000 (15:29 +0200)]
  Palettes and xcos blocks pages where the role is often missing
  will be processed appart

Change-Id: Ifc6e332e0b7b7e10def1635eb6a40e1a83e2cbbb

66 files changed:
scilab/contrib/xcos_toolbox_skeleton/help/en_US/TBX_SUM_c.xml
scilab/contrib/xcos_toolbox_skeleton/help/en_US/tbx_sum.xml
scilab/modules/api_scilab/help/en_US/A_api_scilab.xml
scilab/modules/api_scilab/help/en_US/legacy/api_scilab.xml
scilab/modules/api_scilab/help/ja_JP/legacy/api_scilab.xml
scilab/modules/atoms/help/en_US/_atomsGettingStarted.xml
scilab/modules/cacsd/help/en_US/linear_analysis/freq_domain/nyquistfrequencybounds.xml
scilab/modules/cacsd/help/en_US/linear_analysis/time_domain/damp.xml
scilab/modules/cacsd/help/en_US/linear_system_representation/arma2ss.xml
scilab/modules/cacsd/help/ja_JP/linear_analysis/control_observ/cont_mat.xml
scilab/modules/cacsd/help/ja_JP/linear_analysis/freq_domain/nyquistfrequencybounds.xml
scilab/modules/cacsd/help/ja_JP/linear_analysis/time_domain/damp.xml
scilab/modules/cacsd/help/ja_JP/linear_system_representation/arma2ss.xml
scilab/modules/dynamic_link/help/en_US/ilib_include_flag.xml
scilab/modules/graphics/help/en_US/3d_plot/comet3d.xml
scilab/modules/graphics/help/en_US/3d_plot/param3d_properties.xml
scilab/modules/graphics/help/ja_JP/3d_plot/comet3d.xml
scilab/modules/graphics/help/ja_JP/3d_plot/param3d_properties.xml
scilab/modules/graphics/help/ja_JP/axes_operations/plotframe.xml
scilab/modules/graphics/help/pt_BR/3d_plot/param3d_properties.xml
scilab/modules/graphics/help/pt_BR/axes_operations/plotframe.xml
scilab/modules/helptools/etc/images_md5.txt
scilab/modules/helptools/help/en_US/help_from_sci.xml
scilab/modules/helptools/help/pt_BR/help_from_sci.xml
scilab/modules/helptools/images/_LaTeX_fft.xml_2.png
scilab/modules/helptools/images/_LaTeX_histc.xml_1.png
scilab/modules/helptools/macros/help_from_sci.sci
scilab/modules/optimization/help/en_US/qp_solve.xml
scilab/modules/signal_processing/help/en_US/correlation_convolution/xcorr.xml
scilab/modules/signal_processing/help/en_US/filters/wfir_gui.xml
scilab/modules/signal_processing/help/en_US/xcov.xml
scilab/modules/signal_processing/help/ja_JP/correlation_convolution/xcorr.xml
scilab/modules/signal_processing/help/ja_JP/filters/wfir_gui.xml
scilab/modules/signal_processing/help/ja_JP/xcov.xml
scilab/modules/spreadsheet/help/en_US/csvDefault.xml
scilab/modules/spreadsheet/help/en_US/csvRead.xml
scilab/modules/spreadsheet/help/en_US/csvTextscan.xml
scilab/modules/spreadsheet/help/en_US/csvWrite.xml
scilab/modules/spreadsheet/help/ja_JP/csvDefault.xml
scilab/modules/spreadsheet/help/ja_JP/csvRead.xml
scilab/modules/spreadsheet/help/ja_JP/csvTextscan.xml
scilab/modules/spreadsheet/help/ja_JP/csvWrite.xml
scilab/modules/xcos/help/en_US/scilab_utilities_functions/MODELICA_USER_LIBS.xml
scilab/modules/xcos/help/en_US/scilab_utilities_functions/getModelicaPath.xml
scilab/modules/xcos/help/en_US/scilab_utilities_functions/var2vec.xml
scilab/modules/xcos/help/en_US/scilab_utilities_functions/vec2var.xml
scilab/modules/xcos/help/en_US/scilab_utilities_functions/xcosUpdateBlock.xml
scilab/modules/xcos/help/en_US/solvers/0-LSodar.xml
scilab/modules/xcos/help/en_US/solvers/1-CVode.xml
scilab/modules/xcos/help/en_US/solvers/2-Runge-Kutta.xml
scilab/modules/xcos/help/en_US/solvers/3-Dormand-Prince.xml
scilab/modules/xcos/help/en_US/solvers/4-ImplicitRK.xml
scilab/modules/xcos/help/en_US/solvers/6-IDA.xml
scilab/modules/xcos/help/en_US/solvers/7-DDaskr.xml
scilab/modules/xcos/help/en_US/solvers/8-Rootfinding.xml
scilab/modules/xcos/help/en_US/solvers/9-Comparisons.xml
scilab/modules/xcos/help/fr_FR/scilab_utilities_functions/MODELICA_USER_LIBS.xml
scilab/modules/xcos/help/fr_FR/scilab_utilities_functions/xcosUpdateBlock.xml
scilab/modules/xcos/help/fr_FR/solvers/0-LSodar.xml
scilab/modules/xcos/help/fr_FR/solvers/2-Runge-Kutta.xml
scilab/modules/xcos/help/fr_FR/solvers/3-Dormand-Prince.xml
scilab/modules/xcos/help/fr_FR/solvers/4-ImplicitRK.xml
scilab/modules/xcos/help/fr_FR/solvers/6-IDA.xml
scilab/modules/xcos/help/fr_FR/solvers/7-DDaskr.xml
scilab/modules/xcos/help/fr_FR/solvers/8-Rootfinding.xml
scilab/modules/xcos/help/fr_FR/solvers/9-Comparisons.xml

index d03439c..a751941 100644 (file)
             </listitem>
         </itemizedlist>
     </refsection>
-    <refsection id="SeeAlso_TBX_SUM_c">
+    <refsection id="SeeAlso_TBX_SUM_c" role="see also">
         <title>See also</title>
+        <!-- The short description of each item belonging to the toolbox will be automatically added after its link -->
         <simplelist type="inline">
             <member>
-                <link linkend="TBX_SUM_c">TBX_SUM_c</link> : corresponding scilab functionnality
+                <link linkend="TBX_SUM_c">TBX_SUM_c</link>
             </member>
             <member>
                 <link type="scilab" linkend="scilab.help/sum">Link to the Scilab help page</link>
index ef7d0f4..a0b233b 100644 (file)
             </listitem>
         </itemizedlist>
     </refsection>
-    <refsection id="SeeAlso_tbx_sum">
+    <refsection id="SeeAlso_tbx_sum" role="see also">
+        <!-- The short description of each item belonging to the toolbox will be automatically added after its link -->
         <title>See also</title>
         <simplelist type="inline">
             <member>
-                <link linkend="TBX_SUM_c">TBX_SUM_c</link> : corresponding <link type="scilab" linkend="scilab.help/xcos">Xcos</link> block.
+                <link linkend="TBX_SUM_c">TBX_SUM_c</link>
             </member>
             <member>
                 <link type="scilab" linkend="scilab.help/sum">Link to the Scilab help page</link>
index fc649b9..b15288d 100644 (file)
@@ -33,7 +33,7 @@
             If your code does an important amount of access of variables, in particular in loops, then you may want to compile with the <literal>__API_SCILAB_UNSAFE__</literal> flag defined (through a “#define” positioned before the “#include “api_scilab.h”, or -D in the compiler options). It does not change the API’s behavior but reduces the amount of input and output parameters checked done when you call the APIs, thus may improve the performance.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index e86b86a..b89cc5d 100644 (file)
             </revision>
         </revhistory>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also - API_Scilab</title>
         <simplelist type="inline">
             <member>
-                <link linkend="boolean_reading_API">boolean reading API</link>,
+                <link linkend="boolean_reading_API">boolean reading API</link>
             </member>
             <member>
-                <link linkend="boolean_writing_API">boolean writing API</link>,
+                <link linkend="boolean_writing_API">boolean writing API</link>
             </member>
             <member>
-                <link linkend="bsparse_reading_API">boolean sparse reading API</link>,
+                <link linkend="bsparse_reading_API">boolean sparse reading API</link>
             </member>
             <member>
-                <link linkend="bsparse_writing_API">boolean sparse writing API</link>,
+                <link linkend="bsparse_writing_API">boolean sparse writing API</link>
             </member>
             <member>
-                <link linkend="Common_getvaraddr_API">Common getvaraddr API</link>,
+                <link linkend="Common_getvaraddr_API">Common getvaraddr API</link>
             </member>
             <member>
-                <link linkend="Common_getvardimension_API">Common getvardimension API</link>,
+                <link linkend="Common_getvardimension_API">Common getvardimension API</link>
             </member>
             <member>
-                <link linkend="Common_getvartype_API">Common getvartype API</link>,
+                <link linkend="Common_getvartype_API">Common getvartype API</link>
             </member>
             <member>
-                <link linkend="Common_iscomplex_API">Common iscomplex API</link>,
+                <link linkend="Common_iscomplex_API">Common iscomplex API</link>
             </member>
             <member>
-                <link linkend="Common_isvarmatrixtype_API">Common isvarmatrixtype API</link>,
+                <link linkend="Common_isvarmatrixtype_API">Common isvarmatrixtype API</link>
             </member>
             <member>
-                <link linkend="Double_management_reading_API">Double management reading API</link>,
+                <link linkend="Double_management_reading_API">Double management reading API</link>
             </member>
             <member>
-                <link linkend="Double_management_writing_API">Double management writing API</link>,
+                <link linkend="Double_management_writing_API">Double management writing API</link>
             </member>
             <member>
-                <link linkend="Integer_management_reading_API">Integer management reading API</link>,
+                <link linkend="Integer_management_reading_API">Integer management reading API</link>
             </member>
             <member>
-                <link linkend="Integer_management_writing_API">Integer management writing API</link>,
+                <link linkend="Integer_management_writing_API">Integer management writing API</link>
             </member>
             <member>
-                <link linkend="int_getmatrixofintegerprecision_API">getmatrixofintegerprecision API</link>,
+                <link linkend="int_getmatrixofintegerprecision_API">getmatrixofintegerprecision API</link>
             </member>
             <member>
-                <link linkend="Pointer_reading_API">Pointer reading API</link>,
+                <link linkend="Pointer_reading_API">Pointer reading API</link>
             </member>
             <member>
-                <link linkend="Pointer_writing_API">Pointer writing API</link>,
+                <link linkend="Pointer_writing_API">Pointer writing API</link>
             </member>
             <member>
-                <link linkend="poly_getpolyvariablename_API">poly getpolyvariablename API</link>,
+                <link linkend="poly_getpolyvariablename_API">poly getpolyvariablename API</link>
             </member>
             <member>
-                <link linkend="Polynomial_management_reading_API">Polynomial management reading API</link>,
+                <link linkend="Polynomial_management_reading_API">Polynomial management reading API</link>
             </member>
             <member>
-                <link linkend="Polynomial_management_writing_API">Polynomial management writing API</link>,
+                <link linkend="Polynomial_management_writing_API">Polynomial management writing API</link>
             </member>
             <member>
-                <link linkend="Sparse_management_reading_API">Sparse management reading API</link>,
+                <link linkend="Sparse_management_reading_API">Sparse management reading API</link>
             </member>
             <member>
-                <link linkend="Sparse_management_writing_API">Sparse management writing_API</link>,
+                <link linkend="Sparse_management_writing_API">Sparse management writing_API</link>
             </member>
             <member>
-                <link linkend="String_management_reading_API">String management reading API</link>,
+                <link linkend="String_management_reading_API">String management reading API</link>
             </member>
             <member>
                 <link linkend="String_management_writing_API">String management writing API</link>
             </member>
             <member>
-                <link linkend="handle_reading_API">handle reading API</link>,
+                <link linkend="handle_reading_API">handle reading API</link>
             </member>
             <member>
-                <link linkend="handle_writing_API">handle writing API</link>,
+                <link linkend="handle_writing_API">handle writing API</link>
             </member>
         </simplelist>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also - API_Scilab list management</title>
         <simplelist type="inline">
             <member>
             </member>
         </simplelist>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also - call_scilab</title>
         <simplelist type="inline">
             <member>
index 1042461..fc6edcf 100644 (file)
             </revision>
         </revhistory>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照 - API_Scilab</title>
         <simplelist type="inline">
             <member>
-                <link linkend="boolean_reading_API">論理値を読み込むAPI</link>,
+                <link linkend="boolean_reading_API">論理値を読み込むAPI</link>
             </member>
             <member>
-                <link linkend="boolean_writing_API">論理値を書き込むAPI</link>,
+                <link linkend="boolean_writing_API">論理値を書き込むAPI</link>
             </member>
             <member>
-                <link linkend="bsparse_reading_API">論理値の疎行列を読み込むAPI</link>,
+                <link linkend="bsparse_reading_API">論理値の疎行列を読み込むAPI</link>
             </member>
             <member>
-                <link linkend="bsparse_writing_API">論理値の疎行列を書き込むAPI</link>,
+                <link linkend="bsparse_writing_API">論理値の疎行列を書き込むAPI</link>
             </member>
             <member>
-                <link linkend="Common_getvaraddr_API">getvaraddr 共通API</link>,
+                <link linkend="Common_getvaraddr_API">getvaraddr 共通API</link>
             </member>
             <member>
-                <link linkend="Common_getvardimension_API">getvardimension 共通API</link>,
+                <link linkend="Common_getvardimension_API">getvardimension 共通API</link>
             </member>
             <member>
-                <link linkend="Common_getvartype_API">getvartype 共通API</link>,
+                <link linkend="Common_getvartype_API">getvartype 共通API</link>
             </member>
             <member>
-                <link linkend="Common_iscomplex_API">iscomplex 共通API</link>,
+                <link linkend="Common_iscomplex_API">iscomplex 共通API</link>
             </member>
             <member>
-                <link linkend="Common_isvarmatrixtype_API">isvarmatrixtype 共通API</link>,
+                <link linkend="Common_isvarmatrixtype_API">isvarmatrixtype 共通API</link>
             </member>
             <member>
-                <link linkend="Double_management_reading_API">double管理読み込みAPI</link>,
+                <link linkend="Double_management_reading_API">double管理読み込みAPI</link>
             </member>
             <member>
-                <link linkend="Double_management_writing_API">double管理書き込みAPI</link>,
+                <link linkend="Double_management_writing_API">double管理書き込みAPI</link>
             </member>
             <member>
-                <link linkend="Integer_management_reading_API">整数管理読み込みAPI</link>,
+                <link linkend="Integer_management_reading_API">整数管理読み込みAPI</link>
             </member>
             <member>
-                <link linkend="Integer_management_writing_API">整数管理書き込みAPI</link>,
+                <link linkend="Integer_management_writing_API">整数管理書き込みAPI</link>
             </member>
             <member>
-                <link linkend="int_getmatrixofintegerprecision_API">getmatrixofintegerprecision API</link>,
+                <link linkend="int_getmatrixofintegerprecision_API">getmatrixofintegerprecision API</link>
             </member>
             <member>
-                <link linkend="Pointer_reading_API">ポインタ読み込みAPI</link>,
+                <link linkend="Pointer_reading_API">ポインタ読み込みAPI</link>
             </member>
             <member>
-                <link linkend="Pointer_writing_API">ポインタ書き込みAPI</link>,
+                <link linkend="Pointer_writing_API">ポインタ書き込みAPI</link>
             </member>
             <member>
-                <link linkend="poly_getpolyvariablename_API">多項式getpolyvariablename API</link>,
+                <link linkend="poly_getpolyvariablename_API">多項式getpolyvariablename API</link>
             </member>
             <member>
-                <link linkend="Polynomial_management_reading_API">多項式管理読み込みAPI</link>,
+                <link linkend="Polynomial_management_reading_API">多項式管理読み込みAPI</link>
             </member>
             <member>
-                <link linkend="Polynomial_management_writing_API">多項式管理書き込みAPI</link>,
+                <link linkend="Polynomial_management_writing_API">多項式管理書き込みAPI</link>
             </member>
             <member>
-                <link linkend="Sparse_management_reading_API">疎行列管理読み込みAPI</link>,
+                <link linkend="Sparse_management_reading_API">疎行列管理読み込みAPI</link>
             </member>
             <member>
-                <link linkend="Sparse_management_writing_API">疎行列管理書き込みAPI</link>,
+                <link linkend="Sparse_management_writing_API">疎行列管理書き込みAPI</link>
             </member>
             <member>
-                <link linkend="String_management_reading_API">文字列管理読み込みAPI</link>,
+                <link linkend="String_management_reading_API">文字列管理読み込みAPI</link>
             </member>
             <member>
                 <link linkend="String_management_writing_API">文字列管理書き込みAPI</link>
             </member>
         </simplelist>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照 - API_Scilab リスト管理</title>
         <simplelist type="inline">
             <member>
             </member>
         </simplelist>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照 - call_scilab</title>
         <simplelist type="inline">
             <member>
index 9442110..4079f8e 100644 (file)
@@ -104,7 +104,7 @@ the package NISP (2.1) is currently loaded, It will removed at next Scilab resta
             </itemizedlist>
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <para>
             More information on the autoload
@@ -122,7 +122,4 @@ the package NISP (2.1) is currently loaded, It will removed at next Scilab resta
             </simplelist>
         </para>
     </refsection>
-    <!-- ===================================================================== -->
-    <!-- Authors -->
-    <!-- ===================================================================== -->
 </refentry>
index c400de7..41e08d4 100644 (file)
             </scilab:image>
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index a7eec00..b9ae0d4 100644 (file)
     [wn,z] = damp((1:5)+%i)
     ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
             </revision>
         </revhistory>
     </refsection>
-
 </refentry>
index 18067ed..ba635bb 100644 (file)
@@ -73,7 +73,7 @@ along with this program.
             [S, Sn] = arma2ss(Ar)
         </programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
@@ -88,12 +88,6 @@ along with this program.
         </simplelist>
     </refsection>
     <refsection>
-        <title>Authors</title>
-        <simplelist type="vert">
-            <member>Serge Steer, INRIA</member>
-        </simplelist>
-    </refsection>
-    <refsection>
         <title>History</title>
         <revhistory>
             <revision>
index f9806bf..7db613d 100644 (file)
@@ -54,8 +54,8 @@
 Cc=[B, AB, A^2 B,..., A^(n-1) B]
  ]]></programlisting>
     </refsection>
-    <refsection>
-        <title>See also</title>
+    <refsection role="see also">
+        <title>参照</title>
         <simplelist type="inline">
             <member>
                 <link linkend="ctr_gram">ctr_gram</link>
index bdafde3..c19cad1 100644 (file)
             </scilab:image>
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照</title>
         <simplelist type="inline">
             <member>
             </member>
         </simplelist>
     </refsection>
+    <refsection role="history">
+        <title>履歴</title>
+        <revhistory>
+            <revision>
+                <revnumber>6.0</revnumber>
+                <revdescription>
+                    <para>handling zpk representation</para>
+                </revdescription>
+            </revision>
+        </revhistory>
+    </refsection>
 </refentry>
index 65e28e5..47caa29 100644 (file)
     [wn,z] = damp((1:5)+%i)
     ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照</title>
         <simplelist type="inline">
             <member>
             </member>
         </simplelist>
     </refsection>
+    <refsection role="history">
+        <title>履歴</title>
+        <revhistory>
+            <revision>
+                <revnumber>6.0</revnumber>
+                <revdescription>
+                    <para>handling zpk representation</para>
+                </revdescription>
+            </revision>
+        </revhistory>
+    </refsection>
 </refentry>
index 09bf497..7529646 100644 (file)
@@ -69,7 +69,7 @@ along with this program.
             [S, Sn] = arma2ss(Ar)
         </programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照</title>
         <simplelist type="inline">
             <member>
@@ -84,12 +84,6 @@ along with this program.
         </simplelist>
     </refsection>
     <refsection>
-        <title>作者</title>
-        <simplelist type="vert">
-            <member>Serge Steer, INRIA</member>
-        </simplelist>
-    </refsection>
-    <refsection>
         <title>履歴</title>
         <revhistory>
             <revision>
index e5d9f45..83af008 100644 (file)
@@ -55,7 +55,7 @@
 
 ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index 6b48f8d..0ee350a 100644 (file)
         <title>Examples</title>
         <programlisting role="example"><![CDATA[
 t = linspace(-%pi,%pi,500);
-clf();comet3d(sin(5*t),sin(t),t.^2)
+clf
+comet3d(sin(5*t), sin(t), t.^2)
     ]]></programlisting>
         <programlisting role="example"><![CDATA[
 t = linspace(-%pi,%pi,500)';
-clf();comet3d(sin(5*t),sin(t),[t.^2,ones(t)])
+clf
+comet3d(sin(5*t), sin(t), [t.^2,ones(t)])
     ]]></programlisting>
         <programlisting role="example"><![CDATA[
 t = linspace(-%pi,%pi,500)';
 function z=traj(x,y),z=1.5*sin(x^2)*cos(y),endfunction
-clf();comet3d(cos(t),sin(t),traj)
+clf
+comet3d(cos(t), sin(t), traj)
     ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
@@ -160,7 +163,7 @@ clf();comet3d(cos(t),sin(t),traj)
         <revhistory>
             <revision>
                 <revnumber>5.3.2</revnumber>
-                <revremark>Function comet3d introduced.</revremark>
+                <revremark>Function comet3d introduced</revremark>
             </revision>
         </revhistory>
     </refsection>
index 809b02e..56b27b8 100644 (file)
 
   ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index d1420c1..41eca56 100644 (file)
         <title>例</title>
         <programlisting role="example"><![CDATA[
 t = linspace(-%pi,%pi,500);
-clf();comet3d(sin(5*t),sin(t),t^2)
+clf
+comet3d(sin(5*t), sin(t), t^2)
     ]]></programlisting>
         <programlisting role="example"><![CDATA[
 t = linspace(-%pi,%pi,500)';
-clf();comet3d(sin(5*t),sin(t),[t^2,ones(t)])
+clf
+comet3d(sin(5*t), sin(t), [t^2,ones(t)])
     ]]></programlisting>
         <programlisting role="example"><![CDATA[
 t = linspace(-%pi,%pi,500)';
 function z=traj(x,y),z=1.5*sin(x^2)*cos(y),endfunction
-clf();comet3d(cos(t),sin(t),traj)
+clf
+comet3d(cos(t), sin(t), traj)
     ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照</title>
         <simplelist type="inline">
             <member>
index df0b94e..8171ca9 100644 (file)
 
     </refsection>
 
-    <refsection>
+    <refsection role="see also">
 
         <title>参照</title>
 
index db4ee97..a729cb0 100644 (file)
@@ -284,9 +284,9 @@ plot2d(x,y,5,"000")
 
     </refsection>
 
-    <refsection>
+    <refsection role="see also">
 
-        <title>See also</title>
+        <title>参照</title>
 
         <simplelist type="inline">
 
index c869e5f..54d566f 100644 (file)
@@ -1,4 +1,4 @@
-<?xml version="1.0" encoding="ISO-8859-1"?>
+<?xml version="1.0" encoding="UTF-8"?>
 <!--
  * Scilab ( http://www.scilab.org/ ) - This file is part of Scilab
  * Copyright (C) INRIA - Djalel Abdemouche
         <refpurpose>description of the 3D curves entities properties</refpurpose>
     </refnamediv>
     <refsection>
-        <title>Descrição</title>
-        <para>A entidade Param3d é uma folha na hierarquia de entidades
-            gráficas.
+        <title>Descrição</title>
+        <para>A entidade Param3d é uma folha na hierarquia de entidades
+            gráficas.
         </para>
         <variablelist>
             <varlistentry>
                 <term>visible:</term>
                 <listitem>
-                    <para>este campo contém o valor da propriedade
+                    <para>este campo contém o valor da propriedade
                         <literal>visible</literal> para a entidade. Pode ser <literal>"on"
                         </literal>
-                        ou <literal>"off"</literal> . Por padrão, as curvas são
-                        visíveis, a propriedade é <literal>"on" </literal>. Se
-                        <literal>"off"</literal> as curvas não são desenhadas na
+                        ou <literal>"off"</literal> . Por padrão, as curvas são
+                        visíveis, a propriedade é <literal>"on" </literal>. Se
+                        <literal>"off"</literal> as curvas não são desenhadas na
                         tela.
                     </para>
                 </listitem>
             <varlistentry>
                 <term>data:</term>
                 <listitem>
-                    <para>este campo contém as coordenadas de curvas 3d. É a matriz
+                    <para>este campo contém as coordenadas de curvas 3d. É a matriz
                         <literal>[X,Y,Z]</literal> tal que <literal>X(:,i)</literal>,
-                        <literal>Y(:,i)</literal>, <literal>Z(:,i)</literal> contém as
-                        coordenadas 3d da i-ésima curva. Este campo contém o valor padrão da
+                        <literal>Y(:,i)</literal>, <literal>Z(:,i)</literal> contém as
+                        coordenadas 3d da i-ésima curva. Este campo contém o valor padrão da
                         propriedade <literal>line_style</literal> para objetos segmentos,
-                        arcos, retângulos e poligonais.
+                        arcos, retângulos e poligonais.
                     </para>
                 </listitem>
             </varlistentry>
             <varlistentry>
                 <term>line_mode:</term>
                 <listitem>
-                    <para>este campo contém o valor padrão da propriedade
+                    <para>este campo contém o valor padrão da propriedade
                         <literal>line_mode</literal> para a poligonal. O valor pode ser
                         <literal>"on" </literal> (linha desenhada) ou
                         <literal>"off"</literal> (nenhuma linha desenhada).
                 <listitem>
                     <para> este campo seleciona o tipo de linha a ser utilizada para
                         desenhar linhas. O valor deve ser um inteiro em [0 6]. 0 significa
-                        linha sólida, o restante seleciona tracejados.
+                        linha sólida, o restante seleciona tracejados.
                     </para>
                 </listitem>
             </varlistentry>
             <varlistentry>
                 <term>polyline_style:</term>
                 <listitem>
-                    <para>este campo seleciona o modo como as curvas são desenhadas:
-                        modos interpolado (padrão), escada, esboço de barras, em setas e
-                        preenchido estão disponíveis por índices inteiros em [1:5].
+                    <para>este campo seleciona o modo como as curvas são desenhadas:
+                        modos interpolado (padrão), escada, esboço de barras, em setas e
+                        preenchido estão disponíveis por índices inteiros em [1:5].
                     </para>
                 </listitem>
             </varlistentry>
             <varlistentry>
                 <term>mark_mode:</term>
                 <listitem>
-                    <para>este campo contém o valor padrão da propriedade
+                    <para>este campo contém o valor padrão da propriedade
                         <literal>mark_mode</literal>. Deve ser <literal>"on"</literal> ou
-                        <literal>"off"</literal> (valor padrão).
+                        <literal>"off"</literal> (valor padrão).
                     </para>
                 </listitem>
             </varlistentry>
             <varlistentry>
                 <term>mark_style:</term>
                 <listitem>
-                    <para>este campo contém o valor padrão da propriedade
+                    <para>este campo contém o valor padrão da propriedade
                         <literal>mark_style</literal>. A propriedade
                         <literal>mark_style</literal> seleciona o tipo de marca a ser
                         exibida. o valor deve ser um inteiro em [0 9] que significa: ponto,
-                        sinal de mais, cruz, estrela, rombo preenchido, rombo, triângulo
-                        para cima, triângulo para baixo, trevo e círculo.
+                        sinal de mais, cruz, estrela, rombo preenchido, rombo, triângulo
+                        para cima, triângulo para baixo, trevo e círculo.
                     </para>
                 </listitem>
             </varlistentry>
             <varlistentry>
                 <term>mark_size_unit:</term>
                 <listitem>
-                    <para>este campo contém o valor padrão da propriedade
+                    <para>este campo contém o valor padrão da propriedade
                         <literal>mark_size_unit</literal>. Se
                         <literal>mark_size_unit</literal> for ajustado para
-                        <literal>"point"</literal>, então o valor de
-                        <literal>mark_size</literal> é diretamente dado em pontos. Quando
-                        <literal>mark_size_unit</literal> é ajustado para
-                        <literal>"tabulated"</literal>, <literal>mark_size</literal> é
-                        computado em relação ao array de tamanho de fonte: logo, seu valor
+                        <literal>"point"</literal>, então o valor de
+                        <literal>mark_size</literal> é diretamente dado em pontos. Quando
+                        <literal>mark_size_unit</literal> é ajustado para
+                        <literal>"tabulated"</literal>, <literal>mark_size</literal> é
+                        computado em relação ao array de tamanho de fonte: logo, seu valor
                         deve ser um inteiro em [0 5] que significa 8pt, 10pt, 12pt, 14pt,
                         18pt e 24pt. Note que <link linkend="param3d">param3d</link> e
-                        funções puras do Scilab utilizam o modo <literal>tabulated</literal>
-                        como padrão; quando se utiliza a função <link linkend="plot">plot</link> , o modo <literal>point</literal> é
+                        funções puras do Scilab utilizam o modo <literal>tabulated</literal>
+                        como padrão; quando se utiliza a função <link linkend="plot">plot</link> , o modo <literal>point</literal> é
                         automaticamente habilitado.
                     </para>
                 </listitem>
             <varlistentry>
                 <term>mark_size:</term>
                 <listitem>
-                    <para>este campo contém o valor padrão da propriedade
+                    <para>este campo contém o valor padrão da propriedade
                         <literal>mark_size</literal>. A propriedade
                         <literal>mark_size</literal> seleciona o tamanho de fonte da marca a
                         ser exibida. Deve ser um valor inteiro em [0 5] que significa 8pt,
             <varlistentry>
                 <term>mark_foreground:</term>
                 <listitem>
-                    <para>este campo contém o valor da propriedade
-                        <literal>mark_foreground</literal> que é a cor da borda das marcas.
-                        O valor deve ser um índice de cor (relativo ao mapa de cores
+                    <para>este campo contém o valor da propriedade
+                        <literal>mark_foreground</literal> que é a cor da borda das marcas.
+                        O valor deve ser um índice de cor (relativo ao mapa de cores
                         corrente).
                     </para>
                 </listitem>
             <varlistentry>
                 <term>mark_background:</term>
                 <listitem>
-                    <para>este campo contém o valor da propriedade
-                        <literal>mark_background</literal> que é a cor da face das marcas. O
-                        valor deve ser um índice de cor (relativo ao mapa de cores
+                    <para>este campo contém o valor da propriedade
+                        <literal>mark_background</literal> que é a cor da face das marcas. O
+                        valor deve ser um índice de cor (relativo ao mapa de cores
                         corrente).
                     </para>
                 </listitem>
             <varlistentry>
                 <term>thickness:</term>
                 <listitem>
-                    <para>este campo contém o valor padrão da propriedade
+                    <para>este campo contém o valor padrão da propriedade
                         <literal>thickness</literal> (espessura) das linhas utilizadas para
                         desenhar os eixos e curvas. Deve ser um inteiro positivo.
                     </para>
             <varlistentry>
                 <term>foreground:</term>
                 <listitem>
-                    <para>este campo contém o índice de cor utilizado para desenhar as
-                        curvas. O valor deve ser um índice de cor (relativo ao mapa de cores
+                    <para>este campo contém o índice de cor utilizado para desenhar as
+                        curvas. O valor deve ser um índice de cor (relativo ao mapa de cores
                         corrente).
                     </para>
                 </listitem>
             <varlistentry>
                 <term>clip_state:</term>
                 <listitem>
-                    <para>este campo contém o valor padrão da propriedade
+                    <para>este campo contém o valor padrão da propriedade
                         <literal>clip_state</literal>. O valor pode ser:
                     </para>
                     <itemizedlist>
                         <listitem>
                             <para>
                                 <literal>"off"</literal> significa que todas as curvas
-                                criadas posteriormente não serão recortadas(valor padrão).
+                                criadas posteriormente não serão recortadas(valor padrão).
                             </para>
                         </listitem>
                         <listitem>
                             <para>
                                 <literal>"clipgrf"</literal> significa que todas as cruvas
-                                criadas posteriormente serão recortadas fora do fora das
+                                criadas posteriormente serão recortadas fora do fora das
                                 fronteiras da entidade Axes.
                             </para>
                         </listitem>
                         <listitem>
                             <para>
                                 <literal>"on"</literal> significa que todas as curvas
-                                criadas posteriormente serão recortadas fora do retângulo dado
+                                criadas posteriormente serão recortadas fora do retângulo dado
                                 pela propriedade clip_box.
                             </para>
                         </listitem>
             <varlistentry>
                 <term>clip_box:</term>
                 <listitem>
-                    <para>este campo contém o valor padrão da propriedade
-                        <literal>clip_box</literal>. É uma matriz vazia se clip_state é
-                        <literal>"off"</literal>. Em outros casos, o recorte é dado pelo
+                    <para>este campo contém o valor padrão da propriedade
+                        <literal>clip_box</literal>. É uma matriz vazia se clip_state é
+                        <literal>"off"</literal>. Em outros casos, o recorte é dado pelo
                         vetor <literal>[x,y,w,h]</literal> (ponto superior esquerdo,
                         largura, altura).
                     </para>
             <varlistentry>
                 <term>user_data:</term>
                 <listitem>
-                    <para>este campo pode ser utilizado para armazenar qualquer variável
-                        Scilab na estrutura de dados da entidade Param3d e recuperá-la.
+                    <para>este campo pode ser utilizado para armazenar qualquer variável
+                        Scilab na estrutura de dados da entidade Param3d e recuperá-la.
                     </para>
                 </listitem>
             </varlistentry>
             <varlistentry>
                 <term>parent:</term>
                 <listitem>
-                    <para>esta propriedade contém o manipulador para a raiz. A raiz de
+                    <para>esta propriedade contém o manipulador para a raiz. A raiz de
                         uma entidade curvas 3d deve ser do tipo <literal>"Axes"</literal> ou
                         <literal>"Compound"</literal>.
                     </para>
@@ -244,7 +244,7 @@ curve2.mark_style = 2;
  ]]></programlisting>
     </refsection>
     <refsection role="see also">
-        <title>Ver Também</title>
+        <title>Ver Também</title>
         <simplelist type="inline">
             <member>
                 <link linkend="set">set</link>
@@ -266,4 +266,16 @@ curve2.mark_style = 2;
             </member>
         </simplelist>
     </refsection>
+    <refsection>
+        <title>Histórico</title>
+        <revhistory>
+            <revision>
+                <revnumber>5.4.0</revnumber>
+                <revremark>
+                  line_style value 0 is obsolete, use 1 instead (both are equivalent for SOLID).
+                  Using value 0 will produce an error in Scilab 5.4.1.
+              </revremark>
+            </revision>
+        </revhistory>
+    </refsection>
 </refentry>
index ebacf08..3ca90b2 100644 (file)
@@ -145,7 +145,7 @@ plotframe(rect,flags=[%f,%t],tics=tics,..
 plot2d(x,y,5,"000")
  ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>Ver Também</title>
         <simplelist type="inline">
             <member>
index a2df9ac..f3825f4 100644 (file)
@@ -465,7 +465,7 @@ _LaTeX_erfcx.xml_1.png=3e69185b6882d8edc7e54d751156dc18
 _LaTeX_erfcx.xml_2.png=5feafbda8ba8a657c647a355fb122b49
 _LaTeX_erfi.xml_1.png=98b6a64c2482c6be60499c854c70a678
 _LaTeX_fft.xml_1.png=7db5478ba8fb1495b82cd5cbcc0635b8
-_LaTeX_fft.xml_2.png=e2ba0c01769f70471e099f0496a4aef3
+_LaTeX_fft.xml_2.png=4319fcfbe1beceb023b5361c01cee5ef
 _LaTeX_filter.xml_1.png=f5eab130f2e7fd10b80a402952421a05
 _LaTeX_floor.xml_ru_RU_1.png=1d5ba78bbbafd3226f371146bc348363
 _LaTeX_grand.xml_1.png=dd59088e24bed7a6af5a6ccd16e58616
index 743a57c..2759503 100644 (file)
 
    ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
                 <revnumber>6.0.1</revnumber>
                 <revdescription>
                   Numerical HTML entities like <literal>&amp;#969;</literal> are now accepted in
-                  heading comments.
+                  heading comments. However, writting directly UTF8 characters should be preferred.
                 </revdescription>
             </revision>
         </revhistory>
index 023cb5a..355df4a 100644 (file)
@@ -190,7 +190,7 @@ help_from_sci('test_fun','.','.')
                 <revnumber>6.0.1</revnumber>
                 <revdescription>
                   Numerical HTML entities like <literal>&amp;#969;</literal> are now accepted in
-                  heading comments.
+                  heading comments. However, writting directly UTF-8 characters should be preferred.
                 </revdescription>
             </revision>
         </revhistory>
index b1fbe11..37d9db2 100644 (file)
Binary files a/scilab/modules/helptools/images/_LaTeX_fft.xml_2.png and b/scilab/modules/helptools/images/_LaTeX_fft.xml_2.png differ
index fabd3db..9f591d9 100644 (file)
Binary files a/scilab/modules/helptools/images/_LaTeX_histc.xml_1.png and b/scilab/modules/helptools/images/_LaTeX_histc.xml_1.png differ
index 3cf1fd7..7141b7d 100644 (file)
@@ -453,7 +453,7 @@ function [txt, doing] = change_activity(currently_doing, start_doing)
     case "EXAMPLES"
         txt = [txt; ""; "<refsection>"; "   <title>Examples</title>"; "   <programlisting role=""example""><![CDATA["];
     case "SEE ALSO"
-        txt = [txt; ""; "<refsection>"; "   <title>See also</title>"; "   <simplelist type=""inline"">"];
+        txt = [txt; ""; "<refsection role=""see also"">"; "   <title>See also</title>"; "   <simplelist type=""inline"">"];
     case "AUTHORS"
         txt = [txt; ""; "<refsection>"; "   <title>Authors</title>"; "   <simplelist type=""vert"">"];
     case "BIBLIOGRAPHY"
index 5eb8ea0..dbd3da1 100644 (file)
@@ -164,7 +164,7 @@ me=3;
 // Only linear constraints (1 to 4) are active
  ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index b552cd6..b309c38 100644 (file)
@@ -21,8 +21,11 @@ along with this program.
     </refnamediv>
     <refsynopsisdiv>
         <title>Syntax</title>
-        <synopsis>[c [,lagindex]] = xcorr(x [,maxlags [,scaling]])
-            [c [,lagindex]] = xcorr(x,y [,maxlags [,scaling]])
+        <synopsis>
+          [c, lagindex] = xcorr(x)
+          [c, lagindex] = xcorr(x, y)
+          [c, lagindex] = xcorr(.., maxlags)
+          [c, lagindex] = xcorr(.., maxlags, scaling)
         </synopsis>
     </refsynopsisdiv>
     <refsection>
index 6704a18..98597f3 100644 (file)
@@ -81,7 +81,7 @@
             </inlinemediaobject>
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index 60c6495..981b4bd 100644 (file)
@@ -18,8 +18,11 @@ along with this program.
     </refnamediv>
     <refsynopsisdiv>
         <title>Syntax</title>
-        <synopsis>[c [,lagindex]] = xcov(x [,maxlags [,scaling]])
-            [c [,lagindex]] = xcov(x,y [,maxlags [,scaling]])
+        <synopsis>
+          [c, lagindex] = xcov(x)
+          [c, lagindex] = xcov(x, y)
+          [c, lagindex] = xcov(.., maxlags)
+          [c, lagindex] = xcov(.., maxlags, scaling)
         </synopsis>
     </refsynopsisdiv>
     <refsection>
index 694d4c4..004bc4b 100644 (file)
@@ -26,11 +26,11 @@ along with this program.
     <refsynopsisdiv>
 
         <title>呼び出し手順</title>
-
-        <synopsis>[c [,lagindex]] = xcorr(x [,maxlags [,scaling]])
-
-            [c [,lagindex]] = xcorr(x,y [,maxlags [,scaling]])
-
+        <synopsis>
+          [c, lagindex] = xcorr(x)
+          [c, lagindex] = xcorr(x, y)
+          [c, lagindex] = xcorr(.., maxlags)
+          [c, lagindex] = xcorr(.., maxlags, scaling)
         </synopsis>
 
     </refsynopsisdiv>
index 2b395cc..55aad4e 100644 (file)
@@ -85,7 +85,7 @@
             </inlinemediaobject>
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照</title>
         <simplelist type="inline">
             <member>
index 228854a..07fe6db 100644 (file)
@@ -27,10 +27,11 @@ along with this program.
 
         <title>呼び出し手順</title>
 
-        <synopsis>[c [,lagindex]] = xcov(x [,maxlags [,scaling]])
-
-            [c [,lagindex]] = xcov(x,y [,maxlags [,scaling]])
-
+        <synopsis>
+          [c, lagindex] = xcov(x)
+          [c, lagindex] = xcov(x, y)
+          [c, lagindex] = xcov(.., maxlags)
+          [c, lagindex] = xcov(.., maxlags, scaling)
         </synopsis>
 
     </refsynopsisdiv>
index cc09da6..bde20dd 100644 (file)
         </programlisting>
     </refsection>
 
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index 9f6f4f0..80727d8 100644 (file)
@@ -368,12 +368,18 @@ header = 2;
 [M, c] = csvRead(filename, ascii(9), ",", "double", [], [], [], header) // Ignore the two first lines (the header)
     ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
+                <link linkend="csvTextscan">csvTextscan</link>
+            </member>
+            <member>
                 <link linkend="csvWrite">csvWrite</link>
             </member>
+            <member>
+                <link linkend="csvDefault">csvDefault</link>
+            </member>
         </simplelist>
     </refsection>
     <refsection>
index db1752c..955ed4d 100644 (file)
@@ -146,9 +146,8 @@ csvTextScan( Atext , ";" , "," )
         </programlisting>
     </refsection>
 
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
-
         <simplelist type="inline">
             <member>
                 <link linkend="csvRead">csvRead</link>
index 8e67f7c..c60831e 100644 (file)
@@ -161,12 +161,18 @@ csvWrite ( A , filename );
 edit(filename)
     ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
                 <link linkend="csvRead">csvRead</link>
             </member>
+            <member>
+                <link linkend="csvTextscan">csvTextscan</link>
+            </member>
+            <member>
+                <link linkend="csvDefault">csvDefault</link>
+            </member>
         </simplelist>
     </refsection>
     <refsection>
index fc13340..97ed13e 100644 (file)
             bRes = csvDefault("precision","Ouch!") // 期待値 = %f
         </programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照</title>
         <simplelist type="inline">
             <member>
index b97386d..d673941 100644 (file)
             オプションの入力引数に空の行列<literal>[]</literal>を指定すると,
             デフォルト値が設定されます.
         </para>
-        
         <para>
             入力引数 "conversion" が "double" の時,
             .csvの中の数値以外のフィールド(例:文字列)は NaNに変換されます.
@@ -384,12 +383,18 @@ header = 2;
 [M, c] = csvRead(filename, ascii(9), ",", "double", [], [], [], header) // 最初の2行(ヘッダ)を無視
     ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照</title>
         <simplelist type="inline">
             <member>
+                <link linkend="csvTextscan">csvTextscan</link>
+            </member>
+            <member>
                 <link linkend="csvWrite">csvWrite</link>
             </member>
+            <member>
+                <link linkend="csvDefault">csvDefault</link>
+            </member>
         </simplelist>
     </refsection>
     <refsection>
index c7cd933..1aa5bec 100644 (file)
@@ -129,7 +129,7 @@ csvTextScan( Atext , ";" , "," )
     ]]>
         </programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照</title>
         <simplelist type="inline">
             <member>
index 79d6a24..62ee53e 100644 (file)
@@ -165,12 +165,18 @@ csvWrite ( A , filename );
 edit(filename)
     ]]></programlisting>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>参照</title>
         <simplelist type="inline">
             <member>
                 <link linkend="csvRead">csvRead</link>
             </member>
+            <member>
+                <link linkend="csvTextscan">csvTextscan</link>
+            </member>
+            <member>
+                <link linkend="csvDefault">csvDefault</link>
+            </member>
         </simplelist>
     </refsection>
     <refsection>
index c0163e0..27f81e8 100644 (file)
 
         </programlisting>
     </refsection>
-    <refsection id="SeeAlso_MODELICA_USER_LIBS">
+    <refsection id="SeeAlso_MODELICA_USER_LIBS" role="see also">
         <title>See also</title>
-        <itemizedlist>
-            <listitem>
-                <para>
-                    <link linkend="getModelicaPath">getModelicaPath</link>: get the Modelica directory path needed by Xcos diagram containing Modelica blocks
-                </para>
-            </listitem>
-        </itemizedlist>
+        <simplelist>
+          <member>
+            <link linkend="getModelicaPath">getModelicaPath</link>
+          </member>
+        </simplelist>
     </refsection>
 </refentry>
index b0febdf..2b3070f 100644 (file)
 
         </programlisting>
     </refsection>
-    <refsection id="SeeAlso_getModelicaPath">
+    <refsection id="SeeAlso_getModelicaPath" role="see also">
         <title>See also</title>
-        <itemizedlist>
-            <listitem>
-                <para>
-                    <link linkend="MODELICA_USER_LIBS">MODELICA_USER_LIBS</link>: specify the paths of the directories containing the Modelica class definition files
-                </para>
-            </listitem>
-        </itemizedlist>
+        <simplelist>
+          <member>
+              <link linkend="MODELICA_USER_LIBS">MODELICA_USER_LIBS</link>
+          </member>
+        </simplelist>
     </refsection>
 </refentry>
index 6abed30..95e4b8f 100644 (file)
@@ -85,14 +85,12 @@ b  =
 2.
  ]]></programlisting>
     </refsection>
-    <refsection id="SeeAlso_var2vec">
+    <refsection id="SeeAlso_var2vec" role="see also">
         <title>See also</title>
-        <itemizedlist>
-            <listitem>
-                <para>
-                    <link linkend="vec2var">vec2var - Transform a vector of double in a scilab variable (Scilab Function)</link>
-                </para>
-            </listitem>
-        </itemizedlist>
+        <simplelist>
+          <member>
+            <link linkend="vec2var">vec2var</link>
+          </member>
+        </simplelist>
     </refsection>
 </refentry>
index d711a46..6f8b576 100644 (file)
@@ -91,14 +91,12 @@ c(2)
 1.1    2.
  ]]></programlisting>
     </refsection>
-    <refsection id="SeeAlso_vec2var">
+    <refsection id="SeeAlso_vec2var" role="see also">
         <title>See also</title>
-        <itemizedlist>
-            <listitem>
-                <para>
-                    <link linkend="var2vec">var2vec - Transform a scilab variable in a vector of double (Scilab Function)</link>
-                </para>
-            </listitem>
-        </itemizedlist>
+        <simplelist>
+          <member>
+            <link linkend="var2vec">var2vec</link>
+          </member>
+        </simplelist>
     </refsection>
 </refentry>
index b3433e6..b2eb31f 100644 (file)
@@ -43,35 +43,21 @@ xcosAddToolsMenu("update block", "myExternalFunction(blk, scs_m)");
 ]]></programlisting>
         </para>
     </refsection>
-    <refsection id="SeeAlso_xcosUpdateBlock">
+    <refsection id="SeeAlso_xcosUpdateBlock" role="see also">
         <title>See also</title>
-        <itemizedlist>
-            <listitem>
-                <para>
-                    <link linkend="xcos">xcos</link>
-                </para>
-            </listitem>
-            <listitem>
-                <para>
-                    <link linkend="xcosAddToolsMenu">xcosAddToolsMenu - Add a menu item into the Xcos "Tools" menu</link>
-                </para>
-            </listitem>
-            <listitem>
-                <para>
-                    <link linkend="scicos_block">scicos_block.</link>
-                </para>
-            </listitem>
-            <listitem>
-                <para>
-                    <link linkend="scicos_diagram">scicos_diagram</link>
-                </para>
-            </listitem>
-        </itemizedlist>
-    </refsection>
-    <refsection id="Authors_xcosUpdateBlock">
-        <title>Authors</title>
-        <para>
-            <emphasis role="bold">Clément David</emphasis> - Scilab Enterprises
-        </para>
+        <simplelist>
+            <member>
+              <link linkend="xcos">xcos</link>
+            </member>
+            <member>
+              <link linkend="xcosAddToolsMenu">xcosAddToolsMenu</link>
+            </member>
+            <member>
+              <link linkend="scicos_block">scicos_block</link>
+            </member>
+            <member>
+              <link linkend="scicos_diagram">scicos_diagram</link>
+            </member>
+        </simplelist>
     </refsection>
 </refentry>
index d062ac2..a21eff1 100644 (file)
@@ -158,7 +158,7 @@ Time for Adams / Functional:
             Variable-size step ODE solvers are not appropriate for deterministic real-time applications because the computational overhead of taking a time step varies over the course of an application.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index 2d34d92..4cc54b1 100644 (file)
@@ -252,7 +252,7 @@ Time for Adams / Functional:
             The results show that for a simple nonstiff continuous problem, <emphasis>Adams / Functional</emphasis> is fastest.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index 1f89985..ce5bf2f 100644 (file)
@@ -215,7 +215,7 @@ Time for Runge-Kutta:
             Variable-size step ODE solvers are not appropriate for deterministic real-time applications because the computational overhead of taking a time step varies over the course of an application.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index fd9a3bd..348440e 100644 (file)
@@ -199,7 +199,7 @@ Time for Dormand-Prince:
             Variable-size step ODE solvers are not appropriate for deterministic real-time applications because the computational overhead of taking a time step varies over the course of an application.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index c2d85d8..d75619d 100644 (file)
@@ -16,7 +16,7 @@
     <refnamediv>
         <refname>Implicit Runge-Kutta 4(5)</refname>
         <refpurpose>
-            <emphasis>Implicit Runge-Kutta</emphasis> is a numerical solver providing an efficient and stable implicit method to solve Ordinary Differential Equations (ODEs) Initial Value Problems. Called by <link linkend="xcos">xcos</link>.
+            Numerical solver providing an efficient and stable implicit method to solve Ordinary Differential Equations (ODEs) Initial Value Problems.
         </refpurpose>
     </refnamediv>
     <refsection>
@@ -259,7 +259,7 @@ Time for implicit Runge-Kutta:
             Variable-size step ODE solvers are not appropriate for deterministic real-time applications because the computational overhead of taking a time step varies over the course of an application.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index 60ba627..8e62446 100644 (file)
@@ -16,7 +16,7 @@
     <refnamediv>
         <refname>IDA</refname>
         <refpurpose>
-            <emphasis>IDA</emphasis> (short for Implicit Differential Algebraic equations system solver) is a numerical solver providing an efficient and stable method to solve Differential Algebraic Equations system (DAEs) Initial Value Problems.
+            Implicit Differential Algebraic equations system solver, providing an efficient and stable method to solve Differential Algebraic Equations system (DAEs) Initial Value Problems.
         </refpurpose>
     </refnamediv>
     <refsection>
@@ -160,7 +160,7 @@ try xcos_simulate(scs_m, 4); catch disp(lasterror()); end
 ]]></scilab:image>
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index 290ba14..64cf820 100644 (file)
@@ -16,7 +16,9 @@
     <refnamediv>
         <refname>DDaskr</refname>
         <refpurpose>
-            <emphasis>DDaskr</emphasis> (short for Double-precision Differential Algebraic equations system Solver with Krylov method and Rootfinding) is a numerical solver providing an efficient and stable method to solve Differential Algebraic Equations systems (DAEs) Initial Value Problems.
+            Double-precision Differential Algebraic equations system Solver with Krylov method and
+            Rootfinding: numerical solver providing an efficient and stable method to solve
+            Differential Algebraic Equations systems (DAEs) Initial Value Problems
         </refpurpose>
     </refnamediv>
     <refsection>
@@ -182,7 +184,7 @@ try xcos_simulate(scs_m, 4); catch disp(lasterror()); end
 ]]></scilab:image>
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index 3a8e72f..f0a9e48 100644 (file)
@@ -16,7 +16,7 @@
     <refnamediv>
         <refname>Rootfinding</refname>
         <refpurpose>
-            This feature finds roots of continuous functions for Zero-crossing Blocks.
+            Finds roots of continuous functions for Zero-crossing Blocks
         </refpurpose>
     </refnamediv>
     <refsection>
@@ -136,7 +136,7 @@ Time without rootfinding:
             Following the number of zero crossings, the aspect of the function near these crossings, the tolerances, ..., the computational overhead ranges between 25% and 45%.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index 7058e74..3281dfc 100644 (file)
@@ -865,7 +865,7 @@ Time for DDaskr - GMRes:
             </informaltable>
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>See also</title>
         <simplelist type="inline">
             <member>
index a6f7357..6752ef0 100644 (file)
 
         </programlisting>
     </refsection>
-    <refsection id="SeeAlso_MODELICA_USER_LIBS">
+    <refsection id="SeeAlso_MODELICA_USER_LIBS" role="see also">
         <title>Voir aussi</title>
-        <itemizedlist>
-            <listitem>
-                <para>
-                    <link linkend="getModelicaPath">getModelicaPath</link>: obtenir le chemin du dossier Modelica requis par les diagrammes Xcos contenant des blocs Modelica
-                </para>
-            </listitem>
-        </itemizedlist>
+        <simplelist>
+          <member>
+            <link linkend="getModelicaPath">getModelicaPath</link>
+          </member>
+        </simplelist>
     </refsection>
 </refentry>
index ebb8b0c..f0524db 100644 (file)
@@ -43,30 +43,21 @@ xcosAddToolsMenu("update block", "myExternalFunction(blk, scs_m)");
 ]]></programlisting>
         </para>
     </refsection>
-    <refsection id="SeeAlso_xcosUpdateBlock">
+    <refsection id="SeeAlso_xcosUpdateBlock" role="see also">
         <title>Voir aussi</title>
-        <itemizedlist>
-            <listitem>
-                <para>
-                    <link linkend="xcosAddToolsMenu">xcosAddToolsMenu - Ajoute un menu au menu "Outils" d'Xcos</link>
-                </para>
-            </listitem>
-            <listitem>
-                <para>
-                    <link linkend="scicos_block">scicos_block - Block type.</link>
-                </para>
-            </listitem>
-            <listitem>
-                <para>
-                    <link linkend="scicos_diagram">scicos_diagram - Diagram type.</link>
-                </para>
-            </listitem>
-        </itemizedlist>
-    </refsection>
-    <refsection id="Authors_xcosUpdateBlock">
-        <title>Authors</title>
-        <para>
-            <emphasis role="bold">Clément David</emphasis> - Scilab Enterprises
-        </para>
+        <simplelist>
+            <member>
+              <link linkend="xcos">xcos</link>
+            </member>
+            <member>
+              <link linkend="xcosAddToolsMenu">xcosAddToolsMenu</link>
+            </member>
+            <member>
+              <link linkend="scicos_block">scicos_block</link>
+            </member>
+            <member>
+              <link linkend="scicos_diagram">scicos_diagram</link>
+            </member>
+        </simplelist>
     </refsection>
 </refentry>
index 52f9f89..9d1277a 100644 (file)
@@ -158,7 +158,7 @@ Temps pour Adams / Functional :
             Les solveurs d'EDO à pas variable ne sont pas appropriés pour des applications temps réel déterministes car le surplus de calcul au passage d'un pas de temps varie au cours de l'application.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>Voir Aussi</title>
         <simplelist type="inline">
             <member>
@@ -212,7 +212,7 @@ Temps pour Adams / Functional :
         </para>
     </refsection>
     <refsection>
-        <title>Histoire</title>
+        <title>Historique</title>
         <revhistory>
             <revision>
                 <revnumber>5.4.1</revnumber>
index 5cbb6e1..c700388 100644 (file)
@@ -216,7 +216,7 @@ Temps pour Runge-Kutta :
             Ces résultats montrent que pour un problème non-raide, pour à peu près la même précision demandée et en forçant la même taille de pas, <emphasis>Runge-Kutta</emphasis> est plus rapide.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>Voir Aussi</title>
         <simplelist type="inline">
             <member>
index 059d602..a876f13 100644 (file)
@@ -200,7 +200,7 @@ Temps pour Dormand-Prince :
             Ces résultats montrent que pour un problème non-raide, pour à peu près la même précision demandée et en forçant la même taille de pas, <emphasis>Dormand-Prince</emphasis> est plus rapide.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>Voir Aussi</title>
         <simplelist type="inline">
             <member>
index e027135..c45f12c 100644 (file)
@@ -16,7 +16,7 @@
     <refnamediv>
         <refname>Implicit Runge-Kutta 4(5)</refname>
         <refpurpose>
-            <emphasis>Implicit Runge-Kutta</emphasis> est un solveur numérique fournissant une méthode implicite efficace et stable pour résoudre des Problèmes à Valeur Initiale d'Equations Différentielles Ordinarires (EDOs). Called by <link linkend="xcos">xcos</link>.
+            Solveur numérique fournissant une méthode implicite efficace et stable pour résoudre des Problèmes à Valeur Initiale d'Equations Différentielles Ordinarires (EDOs)
         </refpurpose>
     </refnamediv>
     <refsection>
@@ -259,7 +259,7 @@ Temps pour Runge-Kutta implicite :
             Ces résultats montrent que pour un problème non-raide, pour à peu près la même précision demandée et en forçant la même taille de pas, <emphasis>RK implicite</emphasis> est plus rapide.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>Voir Aussi</title>
         <simplelist type="inline">
             <member>
index 6690308..e6a4deb 100644 (file)
@@ -16,7 +16,8 @@
     <refnamediv>
         <refname>IDA</refname>
         <refpurpose>
-            <emphasis>IDA</emphasis> (abréviation de "Implicit Differential Algebraic equations system solver") est un solveur numérique fournissant une méthode efficace et stable pour résoudre des Problèmes à Valeur Initiale d'Equations Différentielles Algebriques (EDAs).
+            "Implicit Differential Algebraic equations system solver" est un solveur numérique
+           fournissant une méthode efficace et stable pour résoudre des Problèmes à Valeur Initiale d'Equations Différentielles Algebriques (EDAs).
         </refpurpose>
     </refnamediv>
     <refsection>
@@ -160,7 +161,7 @@ try xcos_simulate(scs_m, 4); catch disp(lasterror()); end
 ]]></scilab:image>
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>Voir aussi</title>
         <simplelist type="inline">
             <member>
index b38975d..fa63837 100644 (file)
@@ -16,7 +16,9 @@
     <refnamediv>
         <refname>DDaskr</refname>
         <refpurpose>
-            <emphasis>DDaskr</emphasis> (abréviation de "Double-precision Differential Algebraic equations system Solver with Krylov method and Rootfinding") est un solveur numérique fournissant une méthode efficace et stable pour résoudre des Problèmes à Valeur Initiale d'Equations Différentielles Algebriques (EDAs).
+            "Double-precision Differential Algebraic equations system Solver with Krylov method and
+           Rootfinding" : solveur numérique fournissant une méthode efficace et stable pour résoudre
+          des Problèmes à Valeur Initiale d'Equations Différentielles Algebriques (EDAs).
         </refpurpose>
     </refnamediv>
     <refsection>
@@ -182,7 +184,7 @@ try xcos_simulate(scs_m, 4); catch disp(lasterror()); end
 ]]></scilab:image>
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>Voir Aussi</title>
         <simplelist type="inline">
             <member>
index 1c05ece..01f1de4 100644 (file)
@@ -16,7 +16,7 @@
     <refnamediv>
         <refname>Recherche de racines</refname>
         <refpurpose>
-            Cette fonctionnalité trouve des racines de fonctions continues pour les blocks Zero-crossing.
+            Trouve des racines de fonctions continues pour les blocks Zero-crossing.
         </refpurpose>
     </refnamediv>
     <refsection>
@@ -137,7 +137,7 @@ Temps sans recherche de racine :
             Suivant le nombre de racines, l'aspect de la fonction à l'approche de ces racines, les tolérances, ..., le surplus de temps de calcul va de 25% à 45%.
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>Voir Aussi</title>
         <simplelist type="inline">
             <member>
index 178d33d..85948bf 100644 (file)
@@ -865,7 +865,7 @@ Temps pour DDaskr - GMRes :
             </informaltable>
         </para>
     </refsection>
-    <refsection>
+    <refsection role="see also">
         <title>Voir Aussi</title>
         <simplelist type="inline">
             <member>