Tue Nov 8 05:23:26 EST 2011

Author: neteler
Date: 2011-11-08 02:23:26 -0800 (Tue, 08 Nov 2011)
New Revision: 49140

Modified:
   grass/branches/develbranch_6/db/base/db.columns.html
   grass/branches/develbranch_6/db/base/db.connect.html
   grass/branches/develbranch_6/db/base/db.copy.html
   grass/branches/develbranch_6/db/base/db.createdb.html
   grass/branches/develbranch_6/db/base/db.databases.html
   grass/branches/develbranch_6/db/base/db.describe.html
   grass/branches/develbranch_6/db/base/db.drivers.html
   grass/branches/develbranch_6/db/base/db.dropdb.html
   grass/branches/develbranch_6/db/base/db.droptable.html
   grass/branches/develbranch_6/db/base/db.execute.html
   grass/branches/develbranch_6/db/base/db.select.html
   grass/branches/develbranch_6/db/base/db.tables.html
   grass/branches/develbranch_6/db/db.login/description.html
   grass/branches/develbranch_6/display/d.ask/description.html
   grass/branches/develbranch_6/display/d.barscale/description.html
   grass/branches/develbranch_6/display/d.colorlist/description.html
   grass/branches/develbranch_6/display/d.colors/description.html
   grass/branches/develbranch_6/display/d.colortable/description.html
   grass/branches/develbranch_6/display/d.erase/description.html
   grass/branches/develbranch_6/display/d.extend/description.html
   grass/branches/develbranch_6/display/d.extract/description.html
   grass/branches/develbranch_6/display/d.font.freetype/description.html
   grass/branches/develbranch_6/display/d.font/description.html
   grass/branches/develbranch_6/display/d.frame/description.html
   grass/branches/develbranch_6/display/d.geodesic/description.html
   grass/branches/develbranch_6/display/d.graph/description.html
   grass/branches/develbranch_6/display/d.grid/description.html
   grass/branches/develbranch_6/display/d.his/description.html
   grass/branches/develbranch_6/display/d.histogram/description.html
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   grass/branches/develbranch_6/doc/vector/vector.html
   grass/branches/develbranch_6/general/g.access/description.html
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   grass/branches/develbranch_6/general/g.transform/description.html
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   grass/branches/develbranch_6/imagery/i.zc/description.html
   grass/branches/develbranch_6/lib/init/grass6.html
   grass/branches/develbranch_6/lib/init/helptext.html
   grass/branches/develbranch_6/lib/init/variables.html
   grass/branches/develbranch_6/misc/m.cogo/description.html
   grass/branches/develbranch_6/misc/m.nviz.image/description.html
   grass/branches/develbranch_6/ps/ps.map/description.html
   grass/branches/develbranch_6/raster/r.horizon/description.html
   grass/branches/develbranch_6/raster/r.mapcalc/r3.mapcalc.html
   grass/branches/develbranch_6/raster/r.region/description.html
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   grass/branches/develbranch_6/raster3d/r3.mkdspf/description.html
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   grass/branches/develbranch_6/scripts/d.monsize/description.html
   grass/branches/develbranch_6/scripts/d.mvmon/description.html
   grass/branches/develbranch_6/scripts/d.out.file/description.html
   grass/branches/develbranch_6/scripts/d.out.gpsdrive/description.html
   grass/branches/develbranch_6/scripts/d.out.png/description.html
   grass/branches/develbranch_6/scripts/d.polar/description.html
   grass/branches/develbranch_6/scripts/d.rast.edit/description.html
   grass/branches/develbranch_6/scripts/d.resize/description.html
   grass/branches/develbranch_6/scripts/d.slide.show/description.html
   grass/branches/develbranch_6/scripts/d.split.frame/description.html
   grass/branches/develbranch_6/scripts/d.split/description.html
   grass/branches/develbranch_6/scripts/d.text.freetype/description.html
   grass/branches/develbranch_6/scripts/db.dropcol/description.html
   grass/branches/develbranch_6/scripts/db.droptable/description.html
   grass/branches/develbranch_6/scripts/db.in.ogr/description.html
   grass/branches/develbranch_6/scripts/db.test/description.html
   grass/branches/develbranch_6/scripts/g.extension/description.html
   grass/branches/develbranch_6/scripts/g.mlist/description.html
   grass/branches/develbranch_6/scripts/g.mremove/description.html
   grass/branches/develbranch_6/scripts/i.fusion.brovey/description.html
   grass/branches/develbranch_6/scripts/i.image.mosaic/description.html
   grass/branches/develbranch_6/scripts/i.in.spotvgt/description.html
   grass/branches/develbranch_6/scripts/i.landsat.rgb/description.html
   grass/branches/develbranch_6/scripts/i.spectral/description.html
   grass/branches/develbranch_6/scripts/i.tasscap/description.html
   grass/branches/develbranch_6/scripts/m.proj/description.html
   grass/branches/develbranch_6/scripts/r.fillnulls/description.html
   grass/branches/develbranch_6/scripts/r.in.aster/description.html
   grass/branches/develbranch_6/scripts/r.in.wms/description.html
   grass/branches/develbranch_6/scripts/r.mapcalculator/description.html
   grass/branches/develbranch_6/scripts/r.mask/description.html
   grass/branches/develbranch_6/scripts/r.out.gdal/description.html
   grass/branches/develbranch_6/scripts/r.out.xyz/description.html
   grass/branches/develbranch_6/scripts/r.reclass.area/description.html
   grass/branches/develbranch_6/scripts/r.shaded.relief/description.html
   grass/branches/develbranch_6/scripts/r.univar.sh/description.html
   grass/branches/develbranch_6/scripts/r3.mapcalculator/description.html
   grass/branches/develbranch_6/scripts/v.centroids/description.html
   grass/branches/develbranch_6/scripts/v.colors/description.html
   grass/branches/develbranch_6/scripts/v.db.dropcol/description.html
   grass/branches/develbranch_6/scripts/v.db.join/description.html
   grass/branches/develbranch_6/scripts/v.db.renamecol/description.html
   grass/branches/develbranch_6/scripts/v.db.update/description.html
   grass/branches/develbranch_6/scripts/v.in.e00/description.html
   grass/branches/develbranch_6/scripts/v.in.garmin/description.html
   grass/branches/develbranch_6/scripts/v.in.geonames/description.html
   grass/branches/develbranch_6/scripts/v.in.gns/description.html
   grass/branches/develbranch_6/scripts/v.in.gpsbabel/description.html
   grass/branches/develbranch_6/scripts/v.in.mapgen/description.html
   grass/branches/develbranch_6/scripts/v.in.wfs/description.html
   grass/branches/develbranch_6/scripts/v.out.gpsbabel/description.html
   grass/branches/develbranch_6/scripts/v.rast.stats/description.html
   grass/branches/develbranch_6/scripts/v.report/description.html
   grass/branches/develbranch_6/scripts/v.univar.sh/description.html
   grass/branches/develbranch_6/scripts/v.what.vect/description.html
   grass/branches/develbranch_6/sites/s.in.ascii/description.html
   grass/branches/develbranch_6/sites/s.out.ascii/description.html
   grass/branches/develbranch_6/vector/v.buffer/description.html
   grass/branches/develbranch_6/vector/v.buffer2/description.html
   grass/branches/develbranch_6/vector/v.build/description.html
   grass/branches/develbranch_6/vector/v.category/description.html
   grass/branches/develbranch_6/vector/v.class/description.html
   grass/branches/develbranch_6/vector/v.clean/description.html
   grass/branches/develbranch_6/vector/v.convert/description.html
   grass/branches/develbranch_6/vector/v.db.connect/description.html
   grass/branches/develbranch_6/vector/v.db.select/description.html
   grass/branches/develbranch_6/vector/v.delaunay2/description.html
   grass/branches/develbranch_6/vector/v.distance/description.html
   grass/branches/develbranch_6/vector/v.edit/description.html
   grass/branches/develbranch_6/vector/v.external/description.html
   grass/branches/develbranch_6/vector/v.extract/description.html
   grass/branches/develbranch_6/vector/v.generalize/description.html
   grass/branches/develbranch_6/vector/v.in.ascii/description.html
   grass/branches/develbranch_6/vector/v.in.db/description.html
   grass/branches/develbranch_6/vector/v.in.dwg/description.html
   grass/branches/develbranch_6/vector/v.in.dxf/description.html
   grass/branches/develbranch_6/vector/v.in.ogr/description.html
   grass/branches/develbranch_6/vector/v.in.region/description.html
   grass/branches/develbranch_6/vector/v.kcv/description.html
   grass/branches/develbranch_6/vector/v.kernel/description.html
   grass/branches/develbranch_6/vector/v.label.sa/description.html
   grass/branches/develbranch_6/vector/v.label/description.html
   grass/branches/develbranch_6/vector/v.lrs/lrs.html
   grass/branches/develbranch_6/vector/v.mkgrid/description.html
   grass/branches/develbranch_6/vector/v.neighbors/description.html
   grass/branches/develbranch_6/vector/v.net.alloc/description.html
   grass/branches/develbranch_6/vector/v.net.allpairs/description.html
   grass/branches/develbranch_6/vector/v.net.bridge/description.html
   grass/branches/develbranch_6/vector/v.net.centrality/description.html
   grass/branches/develbranch_6/vector/v.net.components/description.html
   grass/branches/develbranch_6/vector/v.net.connectivity/description.html
   grass/branches/develbranch_6/vector/v.net.distance/description.html
   grass/branches/develbranch_6/vector/v.net.flow/description.html
   grass/branches/develbranch_6/vector/v.net.iso/description.html
   grass/branches/develbranch_6/vector/v.net.path/description.html
   grass/branches/develbranch_6/vector/v.net.salesman/description.html
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   grass/branches/develbranch_6/vector/v.out.pov/description.html
   grass/branches/develbranch_6/vector/v.out.svg/description.html
   grass/branches/develbranch_6/vector/v.out.vtk/description.html
   grass/branches/develbranch_6/vector/v.parallel/description.html
   grass/branches/develbranch_6/vector/v.parallel2/description.html
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   grass/branches/develbranch_6/vector/v.perturb/description.html
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   grass/branches/develbranch_6/vector/v.qcount/description.html
   grass/branches/develbranch_6/vector/v.random/description.html
   grass/branches/develbranch_6/vector/v.reclass/description.html
   grass/branches/develbranch_6/vector/v.sample/description.html
   grass/branches/develbranch_6/vector/v.segment/description.html
   grass/branches/develbranch_6/vector/v.select/description.html
   grass/branches/develbranch_6/vector/v.support/description.html
   grass/branches/develbranch_6/vector/v.surf.idw/description.html
   grass/branches/develbranch_6/vector/v.surf.rst/description.html
   grass/branches/develbranch_6/vector/v.to.db/description.html
   grass/branches/develbranch_6/vector/v.to.points/description.html
   grass/branches/develbranch_6/vector/v.to.rast/description.html
   grass/branches/develbranch_6/vector/v.to.rast3/description.html
   grass/branches/develbranch_6/vector/v.transform/description.html
   grass/branches/develbranch_6/vector/v.type/description.html
   grass/branches/develbranch_6/vector/v.univar/description.html
   grass/branches/develbranch_6/vector/v.vol.rst/description.html
   grass/branches/develbranch_6/vector/v.voronoi/v.delaunay.html
   grass/branches/develbranch_6/vector/v.voronoi/v.voronoi.html
   grass/branches/develbranch_6/vector/v.what.rast/description.html
   grass/branches/develbranch_6/vector/v.what/description.html
   grass/branches/develbranch_6/visualization/nviz/description.html
   grass/branches/develbranch_6/visualization/xganim/description.html
Log:
avoid caps HTML tags

Modified: grass/branches/develbranch_6/db/base/db.columns.html
===================================================================

--- grass/branches/develbranch_6/db/base/db.columns.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.columns.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -6,7 +6,7 @@
 <h2>NOTE</h2>
 
 If parameters for database connection are already set with 
-<a HREF="db.connect.html">db.connect</a>, they are taken as default values and
+<a href="db.connect.html">db.connect</a>, they are taken as default values and
 do not need to be spcified each time.
 
 <h2>EXAMPLE</h2>
@@ -31,14 +31,14 @@
 </pre></div>
 
 <h2>SEE ALSO</h2>
-<em><a HREF="db.connect.html">db.connect</a>,
-<a HREF="db.describe.html">db.describe</a>,
-<a HREF="db.drivers.html">db.drivers</a>,
-<a HREF="db.droptable.html">db.droptable</a>,
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.tables.html">db.tables</a>,
-<a HREF="sql.html">GRASS SQL interface</a></em>
+<em><a href="db.connect.html">db.connect</a>,
+<a href="db.describe.html">db.describe</a>,
+<a href="db.drivers.html">db.drivers</a>,
+<a href="db.droptable.html">db.droptable</a>,
+<a href="db.execute.html">db.execute</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.tables.html">db.tables</a>,
+<a href="sql.html">GRASS SQL interface</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/db/base/db.connect.html
===================================================================
--- grass/branches/develbranch_6/db/base/db.connect.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.connect.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -5,17 +5,17 @@
 user does not need to enter the parameters each time.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Values are stored in the mapset's <tt>VAR</tt> file;
 the connection is not tested for validity.
-<P>
+<p>
 The <b>-p</b> flag will display the current connection parameters. 
-<P>
+<p>
 The <b>-c</b> flag will silently check if the connection parameters have
 been set, and if not will set them to use GRASS's default values.
 (useful in scripts before you attempt to create a new database table)
-<P>
+<p>
 To connect a vector map to a database table, use <em>v.db.connect</em>
 or <em>v.db.addtable</em>.
 
@@ -42,7 +42,7 @@
 db.connect -p
 db.tables -p
 </pre></div>
-<P>
+<p>
 The SQLite database is created automatically when used the first time.
 
 
@@ -109,13 +109,13 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.columns.html">db.columns</a>,
-<a HREF="db.drivers.html">db.drivers</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.tables.html">db.tables</a>,
-<a HREF="v.db.addtable.html">v.db.addtable</a>,
-<a HREF="v.db.connect.html">v.db.connect</a>,
-<a HREF="sql.html">GRASS SQL interface</a></em>
+<a href="db.columns.html">db.columns</a>,
+<a href="db.drivers.html">db.drivers</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.tables.html">db.tables</a>,
+<a href="v.db.addtable.html">v.db.addtable</a>,
+<a href="v.db.connect.html">v.db.connect</a>,
+<a href="sql.html">GRASS SQL interface</a></em>
 
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/db/base/db.copy.html
===================================================================
--- grass/branches/develbranch_6/db/base/db.copy.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.copy.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -6,7 +6,7 @@
 <h2>NOTES</h2>
 
 Attribute tables can be copied manually using db.copy and 
-<em><a HREF="v.db.connect.html">v.db.connect</a></em>. Current connection 
+<em><a href="v.db.connect.html">v.db.connect</a></em>. Current connection 
 settings are saved in <em>$LOCATION/vector_map/dbln</em>.  
 
 <h2>EXAMPLES</h2>
@@ -61,11 +61,11 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="v.db.connect.html">v.db.connect</a>,
-<a HREF="db.drivers.html">db.drivers</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="v.clean.html">v.clean</a>,
-<a HREF="sql.html">GRASS SQL interface</a></em>
+<em><a href="v.db.connect.html">v.db.connect</a>,
+<a href="db.drivers.html">db.drivers</a>,
+<a href="db.login.html">db.login</a>,
+<a href="v.clean.html">v.clean</a>,
+<a href="sql.html">GRASS SQL interface</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/db/base/db.createdb.html
===================================================================
--- grass/branches/develbranch_6/db/base/db.createdb.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.createdb.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -23,14 +23,14 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.columns.html">db.columns</a>,
-<a HREF="db.describe.html">db.describe</a>,
-<a HREF="db.drivers.html">db.drivers</a>,
-<a HREF="db.droptable.html">db.droptable</a>,
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.tables.html">db.tables</a>,
-<a HREF="sql.html">GRASS SQL interface</a></em>
+<a href="db.columns.html">db.columns</a>,
+<a href="db.describe.html">db.describe</a>,
+<a href="db.drivers.html">db.drivers</a>,
+<a href="db.droptable.html">db.droptable</a>,
+<a href="db.execute.html">db.execute</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.tables.html">db.tables</a>,
+<a href="sql.html">GRASS SQL interface</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/db/base/db.databases.html
===================================================================
--- grass/branches/develbranch_6/db/base/db.databases.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.databases.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -5,13 +5,13 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="db.columns.html">db.columns</a>,
-<a HREF="db.describe.html">db.describe</a>,
-<a HREF="db.drivers.html">db.drivers</a>,
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.tables.html">db.tables</a>,
-<a HREF="sql.html">GRASS SQL interface</a></em>
+<em><a href="db.columns.html">db.columns</a>,
+<a href="db.describe.html">db.describe</a>,
+<a href="db.drivers.html">db.drivers</a>,
+<a href="db.execute.html">db.execute</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.tables.html">db.tables</a>,
+<a href="sql.html">GRASS SQL interface</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/db/base/db.describe.html
===================================================================
--- grass/branches/develbranch_6/db/base/db.describe.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.describe.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -6,7 +6,7 @@
 <h2>NOTE</h2>
 
 If parameters for database connection are already set with 
-<a HREF="db.connect.html">db.connect</a>, they are taken as default values and
+<a href="db.connect.html">db.connect</a>, they are taken as default values and
 do not need to be spcified each time.
  
 <h2>EXAMPLE</h2>
@@ -44,12 +44,12 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.columns.html">db.columns</a>,
-<a HREF="db.droptable.html">db.droptable</a>,
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.tables.html">db.tables</a>,
-<a HREF="sql.html">GRASS SQL interface</a></em>
+<a href="db.columns.html">db.columns</a>,
+<a href="db.droptable.html">db.droptable</a>,
+<a href="db.execute.html">db.execute</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.tables.html">db.tables</a>,
+<a href="sql.html">GRASS SQL interface</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/db/base/db.drivers.html
===================================================================
--- grass/branches/develbranch_6/db/base/db.drivers.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.drivers.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -3,14 +3,14 @@
 <em>db.drivers</em> lists all database drivers. 
 
 <h2>SEE ALSO</h2>
-<em><a HREF="db.connect.html">db.connect</a>,
-<a HREF="db.describe.html">db.describe</a>,
-<a HREF="db.drivers.html">db.drivers</a>,
-<a HREF="db.droptable.html">db.droptable</a>,
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.tables.html">db.tables</a>,
-<a HREF="sql.html">GRASS SQL interface</a></em>
+<em><a href="db.connect.html">db.connect</a>,
+<a href="db.describe.html">db.describe</a>,
+<a href="db.drivers.html">db.drivers</a>,
+<a href="db.droptable.html">db.droptable</a>,
+<a href="db.execute.html">db.execute</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.tables.html">db.tables</a>,
+<a href="sql.html">GRASS SQL interface</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/db/base/db.dropdb.html
===================================================================
--- grass/branches/develbranch_6/db/base/db.dropdb.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.dropdb.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -9,12 +9,12 @@
 
 <h2>SEE ALSO</h2>
 <em>
-<a HREF="db.describe.html">db.describe</a>,
-<a HREF="db.droptable.html">db.droptable</a>,
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.tables.html">db.tables</a>,
-<a HREF="sql.html">GRASS SQL interface</a></em>
+<a href="db.describe.html">db.describe</a>,
+<a href="db.droptable.html">db.droptable</a>,
+<a href="db.execute.html">db.execute</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.tables.html">db.tables</a>,
+<a href="sql.html">GRASS SQL interface</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/db/base/db.droptable.html
===================================================================
--- grass/branches/develbranch_6/db/base/db.droptable.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.droptable.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -5,7 +5,7 @@
 <h2>NOTE</h2>
 
 If parameters for database connection are already set with 
-<a HREF="db.connect.html">db.connect</a>, they are taken as default values and
+<a href="db.connect.html">db.connect</a>, they are taken as default values and
 do not need to be spcified each time.
 
 <h2>EXAMPLE</h2>
@@ -25,12 +25,12 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.describe.html">db.describe</a>,
-<a HREF="db.droptable.html">db.droptable</a>,
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.tables.html">db.tables</a>,
-<a HREF="sql.html">GRASS SQL interface</a></em>
+<a href="db.describe.html">db.describe</a>,
+<a href="db.droptable.html">db.droptable</a>,
+<a href="db.execute.html">db.execute</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.tables.html">db.tables</a>,
+<a href="sql.html">GRASS SQL interface</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/db/base/db.execute.html
===================================================================
--- grass/branches/develbranch_6/db/base/db.execute.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.execute.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -6,11 +6,11 @@
 
 <em>db.execute</em> only executes SQL statements and does not return 
 any data. If you need data returned from the database, use <em>db.select</em>.
-<P>
+<p>
 If parameters for database connection are already set with 
-<a HREF="db.connect.html">db.connect</a>, they are taken as default values and
+<a href="db.connect.html">db.connect</a>, they are taken as default values and
 do not need to be specified each time.
-<P>
+<p>
 If you have a large number of SQL commands to process, it is much much faster
 to place all the SQL statements into a text file and use <em>db.execute</em>'s
 <b>input</b> file parameter than it is to process each statement individually
@@ -33,50 +33,50 @@
 db.execute driver=odbc database=g60test input=file.sql
 </pre></div>
 
-<P>
+<p>
 <em>Insert new row into attribute table:</em><br>
 <div class="code"><pre>
 echo "INSERT INTO nobugs (id,name,east_gb,north_gb) values (30,'Ala',1657340,5072301)" | db.execute
 </pre></div>
 
-<P>
+<p>
 <em>Update attribute entries to new value based on SQL rule:</em><br>
 <div class="code"><pre>
 echo "UPDATE roads SET travelcost=5 WHERE cat=1" | db.execute
 </pre></div>
 
-<P>
+<p>
 <em>Update attribute entries to new value based on SQL rule:</em><br>
 <div class="code"><pre>
 echo "UPDATE dourokukan SET testc=50 WHERE testc is NULL" | db.execute
 </pre></div>
 
-<P>
+<p>
 <em>Delete selected rows from attribute table:</em><br>
 <div class="code"><pre>
 echo "DELETE FROM gsod_stationlist WHERE latitude < -91" | db.execute
 </pre></div>
 
-<P>
+<p>
 <em>Add new column to attribute table:</em><br>
 <div class="code"><pre>
 echo "ALTER TABLE roads ADD COLUMN length double" | db.execute
 </pre></div>
 
-<P>
+<p>
 <em>Column type conversion - update new column from existing column (all drivers except for DBF):</em><br>
 <div class="code"><pre>
 # 'z_value' is varchar and 'z' is double precision:
 echo "update geodetic_pts SET z = CAST(z_value AS numeric)" | db.execute
 </pre></div>
 
-<P>
+<p>
 <em>Drop column from attribute table:</em><br>
 <div class="code"><pre>
 echo "ALTER TABLE roads DROP COLUMN length" | db.execute
 </pre></div>
 
-<P>
+<p>
 <em>Drop table (not supported by all drivers)</em><br>
 <div class="code"><pre>
 echo "DROP TABLE fmacopy" | db.execute
@@ -92,21 +92,21 @@
 cat file.sql | db.execute
 </pre></div>
 
-<P>
+<p>
 <em>Join table 'myroads' into table 'extratab' based on common 'cat' column values (not supported by DBF driver):</em><br>
 <div class="code"><pre>
 echo "UPDATE extratab SET names=(SELECT label FROM myroads WHERE extratab.cat=myroads.cat);" | db.execute
 </pre></div>
 
 <h2>SEE ALSO</h2>
-<em><a HREF="db.columns.html">db.columns</a>,
-<a HREF="db.describe.html">db.describe</a>,
-<a HREF="db.drivers.html">db.drivers</a>,
-<a HREF="db.droptable.html">db.droptable</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.select.html">db.select</a>,
-<a HREF="db.tables.html">db.tables</a>,
-<a HREF="sql.html">GRASS SQL interface</a></em>
+<em><a href="db.columns.html">db.columns</a>,
+<a href="db.describe.html">db.describe</a>,
+<a href="db.drivers.html">db.drivers</a>,
+<a href="db.droptable.html">db.droptable</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.select.html">db.select</a>,
+<a href="db.tables.html">db.tables</a>,
+<a href="sql.html">GRASS SQL interface</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/db/base/db.select.html
===================================================================
--- grass/branches/develbranch_6/db/base/db.select.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.select.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -7,7 +7,7 @@
 <h2>NOTE</h2>
 
 If parameters for database connection are already set with 
-<a HREF="db.connect.html">db.connect</a>, they are taken as default values and
+<a href="db.connect.html">db.connect</a>, they are taken as default values and
 do not need to be spcified each time. Output will be displayed to stdout or can
 be directed to a file.
 
@@ -28,21 +28,21 @@
 db.select -c driver=odbc database=g51test table=roads input=file.sql > result.csv
 </pre></div>
 
-<P>
+<p>
 
 <em>Select some string attribute, exclude others:</em><br>
 <div class="code"><pre>
 echo "SELECT * FROM archsites WHERE str1 &lt;&gt; 'No Name'" | db.select
 </pre></div>
 
-<P>
+<p>
 
 <em>Select some string attribute with ZERO length:</em><br>
 <div class="code"><pre>
 echo "SELECT * FROM archsites WHERE str1 IS NULL" | db.select
 </pre></div>
 
-<P>
+<p>
 
 <em>Select coordinates from PostGIS table:</em><br>
 <div class="code"><pre>
@@ -51,14 +51,14 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="sql.html">GRASS SQL interface</a>,
-<a HREF="db.connect.html">db.connect</a>,
-<a HREF="db.describe.html">db.describe</a>,
-<a HREF="db.drivers.html">db.drivers</a>,
-<a HREF="db.droptable.html">db.droptable</a>,
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.tables.html">db.tables</a></em>
+<em><a href="sql.html">GRASS SQL interface</a>,
+<a href="db.connect.html">db.connect</a>,
+<a href="db.describe.html">db.describe</a>,
+<a href="db.drivers.html">db.drivers</a>,
+<a href="db.droptable.html">db.droptable</a>,
+<a href="db.execute.html">db.execute</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.tables.html">db.tables</a></em>
 
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/db/base/db.tables.html
===================================================================
--- grass/branches/develbranch_6/db/base/db.tables.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/base/db.tables.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -5,7 +5,7 @@
 <h2>NOTE</h2>
 
 If parameters for database connection are already set with 
-<a HREF="db.connect.html">db.connect</a>, they are taken as default values and
+<a href="db.connect.html">db.connect</a>, they are taken as default values and
 do not need to be spcified each time.
 
 <h2>EXAMPLES</h2>
@@ -23,11 +23,11 @@
 </pre></div>
 
 <h2>SEE ALSO</h2>
-<em><a HREF="db.columns.html">db.columns</a>,
-<a HREF="db.droptable.html">db.droptable</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="sql.html">GRASS SQL interface</a></em>
+<em><a href="db.columns.html">db.columns</a>,
+<a href="db.droptable.html">db.droptable</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.execute.html">db.execute</a>,
+<a href="sql.html">GRASS SQL interface</a></em>
 
 <h2>AUTHOR</h2>
 ?

Modified: grass/branches/develbranch_6/db/db.login/description.html
===================================================================
--- grass/branches/develbranch_6/db/db.login/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/db/db.login/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -17,7 +17,7 @@
 db.login user=bacava
 </pre></div>
 
-<P>
+<p>
 Example 2: Username and password specified (note that the command
 lines history will store the password in this way):
 
@@ -25,7 +25,7 @@
 db.login user=bacava pass=secret
 </pre></div>
 
-<P>
+<p>
 Example 3: Username and empty password specified (note that the command
 lines history will store the password in this way):
 
@@ -35,8 +35,8 @@
 
 <h2>SEE ALSO</h2>
 <em>
-<a HREF="db.connect.html">db.connect</a>,
-<a HREF="db.test.html">db.test</a>
+<a href="db.connect.html">db.connect</a>,
+<a href="db.test.html">db.test</a>
 </em>
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/display/d.ask/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.ask/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.ask/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,153 +1,153 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.ask</EM> is designed for shell scripts that need to prompt the user for 
+<em>d.ask</em> is designed for shell scripts that need to prompt the user for 
 the name of a data base file in the user's current GRASS mapset search path. 
-After <EM>d.ask</EM> is invoked with needed parameters, 
+After <em>d.ask</em> is invoked with needed parameters, 
 the mouse becomes active and a menu containing files of the specified 
-<EM>element</EM> type is displayed on the user's graphics monitor. 
-The user is prompted by the prompt "<EM>message</EM>" to select one of the 
+<em>element</em> type is displayed on the user's graphics monitor. 
+The user is prompted by the prompt "<em>message</em>" to select one of the 
 listed file names with the mouse. Specifically, the query that appears 
 to the user takes the form: 
 
-<P>
+<p>
 <DL>
-<DD> <B>Double</B> click on the <EM>prompt</EM> "message"
-<DD> <B>Double</B> click here to cancel
-<P>
-<DD> (A list of files of the specified <EM>element</EM> type from each 
+<DD> <b>Double</b> click on the <em>prompt</em> "message"
+<DD> <b>Double</b> click here to cancel
+<p>
+<DD> (A list of files of the specified <em>element</em> type from each 
      of the mapsets listed in the user's mapset search path is also 
      displayed.) 
 </DL>
 
-<P>
+<p>
 
 After the user responds, the mouse is deactivated and 
 the displayed menu is erased from the screen 
 (leaving any underlying materials on display intact). 
 Three lines are written to standard output (the user's terminal screen): 
 
-<P>
+<p>
 <DL>
-<DD><B>name=</B><EM>file_name</em>
-<DD><B>mapset=</B><EM>mapset_name</em>
-<DD><B>fullname=</B><EM>file_name at mapset_name</em>
+<DD><b>name=</b><em>file_name</em>
+<DD><b>mapset=</b><em>mapset_name</em>
+<DD><b>fullname=</b><em>file_name at mapset_name</em>
 </DL>
-<P>
+<p>
 
 <H3>Parameters:</H3>
 
 <DL>
-<DT><B>element=</B><EM>name,description</em>
+<DT><b>element=</b><em>name,description</em>
 <DD>Name of a GRASS data base element, followed by a one word description of the 
 element. GRASS data base elements are mapset subdirectories; these include: 
 bdlg, cats, cell, cell_misc, cellhd, colr, colr2, dig, dig_ascii, dig_att, 
 dig_cats, dig_plus, dlg, group, hist, icons, noise, paint, site_lists, and 
 windows. 
-The <EM>description</EM> will be used to display an error message to the screen 
+The <em>description</em> will be used to display an error message to the screen 
 if no files of the named element type exist in the user's mapset search path. 
-The prompt "<EM>message</EM>" will appear in the pop-up menu displayed on the 
+The prompt "<em>message</em>" will appear in the pop-up menu displayed on the 
 user's graphics monitor. The files listed in the menu will be of the 
-specified <EM>element</EM> type, and exist in mapsets listed in the user's 
+specified <em>element</em> type, and exist in mapsets listed in the user's 
 current mapset search path. 
-<DT><B>prompt=</B>"<EM>message</EM>"
+<DT><b>prompt=</b>"<em>message</em>"
 <DD>A brief message with which the user will be prompted. 
 If this message contains more than one word, it should be 
 enclosed within double quotes (""). 
 It is a non-selectable message displayed in the menu bar of a pop-up menu. 
 Selectable items in the displayed menu include a cancel option and any of the 
-files in the mapset subdirectory <EM>name</EM> in the user's mapset search path. 
+files in the mapset subdirectory <em>name</em> in the user's mapset search path. 
 </DL>
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Given the following input, 
 
-<P>
+<p>
 <DL>
 <DD>
-<B>d.ask element=</B>cell,raster <B>prompt=</B>"raster map layer to 
+<b>d.ask element=</b>cell,raster <b>prompt=</b>"raster map layer to 
 be used"
 </DL>
 
-<P>
-<EM>d.ask</EM> will prompt the user to select a raster (cell) file from among 
+<p>
+<em>d.ask</em> will prompt the user to select a raster (cell) file from among 
 those listed in the "cell" directories of the mapsets listed in his current 
 mapset search path. A pop-up menu will be displayed on the user's graphics 
 monitor, containing the prompt: 
 
-<P>
+<p>
 <DL>
-<DD> <B>Double</B> click on the <EM>raster</EM> map layer to be used
-<DD> <B>Double</B> click here to cancel
+<DD> <b>Double</b> click on the <em>raster</em> map layer to be used
+<DD> <b>Double</b> click here to cancel
 </DL>
 
-<H2>OUTPUT</H2>
+<h2>OUTPUT</h2>
 
 If the user selects a file name from the displayed menu, 
-<EM>d.ask</EM> writes three lines to standard output: 
+<em>d.ask</em> writes three lines to standard output: 
 
-<P>
+<p>
 <DL>
-<DD> <B>name=</B><EM>file_name</EM> 
-<DD> <B>mapset=</B><EM>mapset_name</EM> 
-<DD> <B>fullname=</B><EM>file_name at mapset_name</EM> 
+<DD> <b>name=</b><em>file_name</em> 
+<DD> <b>mapset=</b><em>mapset_name</em> 
+<DD> <b>fullname=</b><em>file_name at mapset_name</em> 
 </DL>
 
-<P>
+<p>
 The output is in the form of /bin/sh commands to set the variable 
-<EM>name</EM>
+<em>name</em>
 to the file name specified by the user 
-(of the <EM>element</EM> type requested by <EM>d.ask</EM>), <EM>mapset</EM>
-to the GRASS mapset in which this file resides, and <EM>fullname</EM>
+(of the <em>element</em> type requested by <em>d.ask</em>), <em>mapset</em>
+to the GRASS mapset in which this file resides, and <em>fullname</em>
 to the name of the file and its mapset. 
 
-<P>
+<p>
 
 If the user elects not to select a file but instead chooses the 
 "Double click here to cancel" option, 
 the mouse will be deactivated and no variable assignments will be 
 returned to standard output. 
 
-<P>
+<p>
 
-If no files of the specified <EM>element</EM> type are found in the user's 
+If no files of the specified <em>element</em> type are found in the user's 
 current mapset search path, the mouse is activated and the following message 
 is displayed on the user's graphics monitor: 
 
-<P>
+<p>
 <DL>
-<DD> <B>No <EM>element</EM> description files found</B> 
-<DD> <B>Click here to continue</B> 
+<DD> <b>No <em>element</em> description files found</b> 
+<DD> <b>Click here to continue</b> 
 </DL>
 
-<P>
+<p>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Parameter values 
-(the <EM>element</EM> name and description, and <EM>prompt</EM> message) 
-cannot be supplied to <EM>d.ask</EM> interactively; 
+(the <em>element</em> name and description, and <em>prompt</em> message) 
+cannot be supplied to <em>d.ask</em> interactively; 
 they must be supplied on the command line or from a file. 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="d.menu.html">d.menu</A>,<br>
-<A HREF="g.ask.html">g.ask</A>,<br>
-<A HREF="g.filename.html">g.filename</A>,<br>
-<A HREF="g.findfile.html">g.findfile</A>,<br>
-<A HREF="g.gisenv.html">g.gisenv</A>,<br>
-<A HREF="g.mapsets.html">g.mapsets</A>
-</EM>
+<em>
+<a href="d.menu.html">d.menu</a>,<br>
+<a href="g.ask.html">g.ask</a>,<br>
+<a href="g.filename.html">g.filename</a>,<br>
+<a href="g.findfile.html">g.findfile</a>,<br>
+<a href="g.gisenv.html">g.gisenv</a>,<br>
+<a href="g.mapsets.html">g.mapsets</a>
+</em>
 
-<H2>BUGS</H2>
+<h2>BUGS</h2>
 
 This program calls other GRASS programs which may generate confusing 
 error messages. Example: an error message from the 
-program <A HREF="d.menu.html">d.menu</A> 
+program <a href="d.menu.html">d.menu</a> 
 will appear if a nonexistent map element is chosen. 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro, U.S. Army Construction Engineering Research Laboratory
 

Modified: grass/branches/develbranch_6/display/d.barscale/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.barscale/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.barscale/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,32 +1,32 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
  
-<EM>d.barscale</EM> displays a barscale on the graphics monitor using either
+<em>d.barscale</em> displays a barscale on the graphics monitor using either
 the mouse or given screen coordinates. It can draw the scale in a couple of
 styles or simply draw a north arrow.
 
 
 <h2>NOTE</h2>
 
-<EM>d.barscale</EM> will not work in Lat/Lon locations as the horizontal
-scale distance changes with latitude. Try <EM>d.grid</EM> instead.
+<em>d.barscale</em> will not work in Lat/Lon locations as the horizontal
+scale distance changes with latitude. Try <em>d.grid</em> instead.
 
 <p>The -l flag will always draw a north arrow <em>and</em> a line scale
 together; it is currently not possible to draw a line scale without a north
 arrow. Instead, the -s flag can be used to draw a barscale only.</p> 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="d.graph.html">d.graph</A><br>
-<A HREF="d.grid.html">d.grid</A><br>
-<A HREF="d.legend.html">d.legend</A><br>
-<A HREF="d.measure.html">d.measure</A><br>
-<A HREF="d.where.html">d.where</A><br>  
-<A HREF="g.region.html">g.region</A><br>
-</EM>
+<em>
+<a href="d.graph.html">d.graph</a><br>
+<a href="d.grid.html">d.grid</a><br>
+<a href="d.legend.html">d.legend</a><br>
+<a href="d.measure.html">d.measure</a><br>
+<a href="d.where.html">d.where</a><br>  
+<a href="g.region.html">g.region</a><br>
+</em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 unknown.
 
 <p>

Modified: grass/branches/develbranch_6/display/d.colorlist/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.colorlist/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.colorlist/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,14 +1,14 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.colorlist</EM> report the available color names.
+<em>d.colorlist</em> report the available color names.
 The list contains all available display colors with a configurable 
 separator (default is comma).
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.colors.html">d.colors</A></EM>
+<em><a href="d.colors.html">d.colors</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Andreas Lange
 

Modified: grass/branches/develbranch_6/display/d.colors/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.colors/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.colors/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,42 +1,42 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 A color table file associates specific colors with the categories of a
 raster map layer. The user can change these map category color assignments
 (i.e., change the map's color table) interactively, by first displaying the
 raster map to the graphics monitor and then running the program
-<EM>d.colors</EM>.
+<em>d.colors</em>.
 
-<P>
-Any color changes made using <EM>d.colors</EM> will not immediately be
+<p>
+Any color changes made using <em>d.colors</em> will not immediately be
 shown on the graphics display; however, any color changes saved will
 still alter the map's color table and will appear next time the raster
-map layer is redisplayed (see <EM><A HREF="d.colortable.html">d.colortable</A></EM>).
+map layer is redisplayed (see <em><a href="d.colortable.html">d.colortable</a></em>).
 
-<P>
+<p>
 The user must first display the relevant raster map layer to the
 active frame on the graphics monitor (e.g., using
-<EM><A HREF="d.rast.html">d.rast</A></EM>) before running
-<EM>d.colors</EM>. The user can then either enter the name of the
+<em><a href="d.rast.html">d.rast</a></em>) before running
+<em>d.colors</em>. The user can then either enter the name of the
 raster map layer whose color table is to be changed on the command
 line (e.g., by typing: <tt>d.colors map=soils</tt>), or type
 <tt>d.colors</tt> without program arguments. If the user simply types
 <tt>d.colors</tt> without program arguments on the command line,
-<EM>d.colors</EM> will ask the user to enter the name of an existing
+<em>d.colors</em> will ask the user to enter the name of an existing
 raster map layer using the standard GRASS interface.
 
-<P>
-In either case, the user is then presented with the <EM>d.colors</EM>
+<p>
+In either case, the user is then presented with the <em>d.colors</em>
 command menu, shown below.
 <!-- This menu is the same as the category and color
-changing portion of the <EM><A HREF="d.display.html">d.display</A></EM>
+changing portion of the <em><a href="d.display.html">d.display</a></em>
 menu. -->
-The <EM>d.colors</EM> commands are listed beneath the Category
+The <em>d.colors</em> commands are listed beneath the Category
 Pointer Movement, Color Modification, Replotting Screen, and Quitting
 sections below.  Commands are invoked by typing in the single-key response
 shown to the left below. (Longer descriptions of these commands appear to
 the right.) Results from invoking these commands will be reflected in the
-Category and Category Number sections of the <EM>d.colors</EM> screen. On
-the <EM>d.colors</EM> screen menu, commands appear in the right half of the
+Category and Category Number sections of the <em>d.colors</em> screen. On
+the <em>d.colors</em> screen menu, commands appear in the right half of the
 screen, and the current status of categories appears in the left half of the
 screen.
 
@@ -72,33 +72,33 @@
 </PRE>
 
 Changing categories - The keys 
-<B>"d, D, u,"</B>
+<b>"d, D, u,"</b>
 and 
-<B>"U"</B>
+<b>"U"</b>
 are used to move to a different category. The lower case letters move up, 
-<B>u,</B>
+<b>u,</b>
 and down, 
-<B>d,</B>
+<b>d,</b>
 the category list one category at a time. The upper case letters move 10 
 categories at a time for fast movement. The cursor does wrap between the 
 first and last categories. The current category is noted on the text screen 
 with an arrow, and is indicated on the graphics screen by a box around the 
 current color. 
 
-<P>
+<p>
 
 Changing colors - The color associated with the current category can be 
 changed with the 
-<B>"R, r, G, g, B,"</B>
+<b>"R, r, G, g, B,"</b>
 and 
-<B>b</B>
+<b>b</b>
 keys. The upper case letters increase the intensities of 
 red 
-<B>R,</B>
+<b>R,</b>
 green 
-<B>G,</B>
+<b>G,</b>
 and blue 
-<B>B</B>
+<b>B</b>
 for the current category; the lower case letters decrease the intensities of 
 these same colors for the current category. Video devices make all the 
 colors of the spectrum by mixing red, green, and blue. For those 
@@ -106,96 +106,96 @@
 be confusing. For starters, yellow is made by mixing red and green. The 
 intensities are listed on the text screen in as percentages. 
 
-<P>
+<p>
 
-Keys <B>I</B> and <B>i</B> increase and decrease the
+Keys <b>I</b> and <b>i</b> increase and decrease the
 percentage change that each keystroke of one of the color
-keys (<EM>R, r, G, g, B, b</EM>) causes in its respective
+keys (<em>R, r, G, g, B, b</em>) causes in its respective
 color. The increase increment is initially set to 10%.
-Thus, pressing the <EM>R</EM> key would will increase the
+Thus, pressing the <em>R</em> key would will increase the
 red component of the current category by 10%.
 
-<P>
+<p>
 
 Highlight - The 
-<B>h</B>
+<b>h</b>
 key toggles between the current category color and the current 
 highlight color. This color is initially black but can be modified as 
 above while in highlight mode. Blinking can be accomplished by repeatedly 
 striking the 
-<B>h</B>
+<b>h</b>
 key. When changing to different categories using the movement keys as 
 described above, while in highlight mode the category colors will be 
 always left showing their actual colors. Only one category is highlighted 
 at any one time. 
 
-<P>
+<p>
 
 Saving the current color table - 
-Pressing the <B>c</B> key will save the current color table as you have 
+Pressing the <b>c</b> key will save the current color table as you have 
 modified it. This table will then be used next time you 
 display or paint this raster map layer. 
 
-<P>
+<p>
 
 Color table toggle - Different types of color tables are suitable for 
 different raster map layers. 
 The key 
-<B>t</B>
+<b>t</b>
 flips between the following color tables: red, green, blue color ramp; gray 
 scale; smooth changing color wave; random colors; and the saved color table. 
 
-<P>
+<p>
 
 Color table shift - The entire table is shifted up and down using the 
-<B>+</B>
+<b>+</b>
 and 
-<B>-</B>
+<b>-</b>
 keys. 
 
-<P>
+<p>
 
-Quitting the <EM>d.colors</EM> program - Pressing the
-<B>Q</B> key will cause you to quit the <EM>d.colors</EM>
+Quitting the <em>d.colors</em> program - Pressing the
+<b>Q</b> key will cause you to quit the <em>d.colors</em>
 program.  If colors have been modified but not saved,
-<EM>d.colors</EM> will ask:
+<em>d.colors</em> will ask:
 <PRE>
          Colors changed
          Save the changes? (y/n)
 </PRE>
-The user should type in <B>y</B> to save changes, 
-or <B>n</B> to not save changes, before quitting the program. 
-If the user types <B>n</B>, the program will ask: 
+The user should type in <b>y</b> to save changes, 
+or <b>n</b> to not save changes, before quitting the program. 
+If the user types <b>n</b>, the program will ask: 
 <PRE>
          Quit anyway? (y/n) 
 </PRE>
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-<P>
+<p>
 
 The map whose color table is to be altered with
-<EM>d.colors</EM> must already be on display in the active
+<em>d.colors</em> must already be on display in the active
 display frame on the graphics monitor before
-<EM>d.colors</EM> is run. This can be done using the
-command <em><A HREF="d.rast.html">d.rast</a> map=name</EM> (where <EM>name</EM> is a raster map
+<em>d.colors</em> is run. This can be done using the
+command <em><a href="d.rast.html">d.rast</a> map=name</em> (where <em>name</em> is a raster map
 layer whose color table the user wishes to alter).
 
-<P>
+<p>
 Some color monitors may not support the full range of colors required 
 to display all of the map's categories listed in the map's color table. 
 However, regardless of whether the user can see the color changes he is 
 effecting to a map's color table, any changes to a map's color table 
-made with <EM>d.colors</EM> that are saved will appear in the map's color table. 
+made with <em>d.colors</em> that are saved will appear in the map's color table. 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="d.colortable.html">d.colortable</A>,
-<A HREF="d.rast.html">d.rast</A>,
-<A HREF="r.colors.html">r.colors</A>
-</EM>
+<em>
+<a href="d.colortable.html">d.colortable</a>,
+<a href="d.rast.html">d.rast</a>,
+<a href="r.colors.html">r.colors</a>
+</em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 James Westervelt, U.S. Army Construction Engineering 
 Research Laboratory

Modified: grass/branches/develbranch_6/display/d.colortable/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.colortable/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.colortable/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,20 +1,20 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-The GRASS program <EM>d.colortable</EM> 
+The GRASS program <em>d.colortable</em> 
 is used to display the color table associated with a raster map layer in the 
-active frame on the graphics monitor. The <EM>map</EM> name should be 
+active frame on the graphics monitor. The <em>map</em> name should be 
 an available raster map layer in the user's current mapset search path 
 and location. 
 
-<P>
-If the values of both <EM>lines</EM> and <EM>cols</EM> are
-not specified by  the user, <EM>d.colortable</EM> 
+<p>
+If the values of both <em>lines</em> and <em>cols</em> are
+not specified by  the user, <em>d.colortable</em> 
 divides the active frame equally among the number of categories 
 present in the named raster map layer. If one option is specified, 
 the other is automatically set to accommodate all categories. 
 If both are specified, as many categories as possible are displayed. 
 
-<P>
+<p>
 If the user specifies the name of a map on the command line but does not 
 specify the values of other parameters, parameter default values will be used. 
 Alternately, if the user types simply <em>d.colortable</em> on the command line 
@@ -22,32 +22,32 @@
 settings using the standard GRASS parser interface.
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 The user running the command: 
 <DL>
 <DD>
-<B>d.colortable map=</B><EM>soils</EM> 
-  <B>color=</B><EM>red</EM>
-  <B>lines=</B><EM>1</EM>
-  <B>cols=</B><EM>3</EM>
+<b>d.colortable map=</b><em>soils</em> 
+  <b>color=</b><em>red</em>
+  <b>lines=</b><em>1</em>
+  <b>cols=</b><em>3</em>
 </DL>
 would see the active graphics frame divided into three columns 
 extending the full frame height. The lines dividing the color table 
-associated with the <EM>soils</EM> map would be displayed in red. 
-The user would see, at most, only three of the colors from the <EM>soils</EM> 
+associated with the <em>soils</em> map would be displayed in red. 
+The user would see, at most, only three of the colors from the <em>soils</em> 
 color table displayed in the active frame (because the user requested 
 that this frame be divided into three sections).
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 If the user wishes to display the entire color table associated with 
 a map, the user should either stipulate a number of lines (rows) and 
 columns (cols) sufficient to accommodate the number of categories 
 in the map's color table, or fail to assign values to one or both of 
-<EM>lines</EM> and/or <EM>cols</EM>.
-If the user runs <EM>d.colortable</EM> using the default number of 
+<em>lines</em> and/or <em>cols</em>.
+If the user runs <em>d.colortable</em> using the default number of 
 lines and columns (the full graphics frame), all categories from the 
 map's color table will be displayed. However, if the user requests 
 that the color table associated with a map which has 10 data categories 
@@ -55,23 +55,23 @@
 (a total of six cells), 
 only six of the ten map categories will be displayed. 
 
-<P>
+<p>
 The user should run the GRASS program 
-<EM><A HREF="d.erase.html">d.erase</A></EM> between 
-runs of <EM>d.colortable</EM> to avoid confusion. 
+<em><a href="d.erase.html">d.erase</a></em> between 
+runs of <em>d.colortable</em> to avoid confusion. 
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="d.colors.html">d.colors</A><br>
-<A HREF="d.erase.html">d.erase</A><br>
-<A HREF="d.legend.html">d.legend</A><br>
-<A HREF="d.rast.html">d.rast</A><br>
-</EM>
+<em>
+<a href="d.colors.html">d.colors</a><br>
+<a href="d.erase.html">d.erase</a><br>
+<a href="d.legend.html">d.legend</a><br>
+<a href="d.rast.html">d.rast</a><br>
+</em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 James Westervelt, U.S. Army Construction Engineering Research Laboratory
 

Modified: grass/branches/develbranch_6/display/d.erase/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.erase/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.erase/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -6,7 +6,7 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.mon.html">d.mon</a></em>
+<em><a href="d.mon.html">d.mon</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/display/d.extend/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.extend/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.extend/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,21 +1,21 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.extend</EM> can be used to display all objects in currently displayed
+<em>d.extend</em> can be used to display all objects in currently displayed
 maps.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 If no raster map is displayed on a monitor, the default region resolution is 
 calculated to fill window by 512 * 512 cells. Otherwise, it will use the minimum
 resolution of displayed raster maps.
 
-<P>
+<p>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="g.region.html">g.region</A></EM>
+<em><a href="g.region.html">g.region</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Huidae Cho
 &lt;<a href="mailto:grass4u at gmail.com">grass4u at gmail.com</a>&gt;<br>

Modified: grass/branches/develbranch_6/display/d.extract/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.extract/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.extract/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -16,7 +16,7 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="v.extract.html">v.extract</a></em>
+<em><a href="v.extract.html">v.extract</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/display/d.font/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.font/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.font/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,73 +1,73 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>d.font</EM> allows the user to select use of a specific text font for 
+<em>d.font</em> allows the user to select use of a specific text font for 
 display of text on the graphics monitor. 
 The GRASS program 
-<EM><A HREF="../html/show.fonts.sh.html">show.fonts.sh</A></EM>
+<em><a href="../html/show.fonts.sh.html">show.fonts.sh</a></em>
 is a UNIX Bourne shell macro which 
-names and displays the fonts that can be selected using <EM>d.font</EM>.
+names and displays the fonts that can be selected using <em>d.font</em>.
 If the user does not specify a font when using other GRASS programs 
-that display text, the font type <EM>romans</EM> is used by default. 
+that display text, the font type <em>romans</em> is used by default. 
 
-<P>
+<p>
 The user can run this program either non-interactively or interactively. 
 If the user specifies a font type name on the command line the program will 
 run non-interactively. 
-Alternately, the user can simply type <B>d.font</B> on the command line; 
+Alternately, the user can simply type <b>d.font</b> on the command line; 
 in this case, the program will prompt the user for a display 
 text font type.
 
-<P>
-<B>Parameter:</B> 
+<p>
+<b>Parameter:</b> 
 <DL>
-<DT><B>font=</B><EM>name</EM>
+<DT><b>font=</b><em>name</em>
 <DD>Name of a font type, from among the font types italicized below. 
 <BR>
-Default: <EM>romans</EM> 
+Default: <em>romans</em> 
 <BR>
 Options: (italized) 
-<BR><EM>cyrilc</EM> Cyrillic 
-<BR><EM>gothgbt</EM> Gothic Great Britain triplex 
-<BR><EM>gothgrt</EM> Gothic German triplex 
-<BR><EM>gothitt</EM> Gothic Italian triplex 
-<BR><EM>greekc</EM> Greek complex 
-<BR><EM>greekcs</EM> Greek complex script 
-<BR><EM>greekp</EM> Greek plain 
-<BR><EM>greeks</EM> Greek simplex 
-<BR><EM>italicc</EM> Italian complex 
-<BR><EM>italiccs</EM> Italian complex small 
-<BR><EM>italict</EM> Italian triplex 
-<BR><EM>romanc</EM> Roman complex 
-<BR><EM>romancs</EM> Roman complex small 
-<BR><EM>romand</EM> Roman duplex 
-<BR><EM>romanp</EM> Roman plain 
-<BR><EM>romans</EM> Roman simplex 
-<BR><EM>romant</EM> Roman triplex 
-<BR><EM>scriptc</EM> Script complex 
-<BR><EM>scripts</EM> Script simplex 
+<BR><em>cyrilc</em> Cyrillic 
+<BR><em>gothgbt</em> Gothic Great Britain triplex 
+<BR><em>gothgrt</em> Gothic German triplex 
+<BR><em>gothitt</em> Gothic Italian triplex 
+<BR><em>greekc</em> Greek complex 
+<BR><em>greekcs</em> Greek complex script 
+<BR><em>greekp</em> Greek plain 
+<BR><em>greeks</em> Greek simplex 
+<BR><em>italicc</em> Italian complex 
+<BR><em>italiccs</em> Italian complex small 
+<BR><em>italict</em> Italian triplex 
+<BR><em>romanc</em> Roman complex 
+<BR><em>romancs</em> Roman complex small 
+<BR><em>romand</em> Roman duplex 
+<BR><em>romanp</em> Roman plain 
+<BR><em>romans</em> Roman simplex 
+<BR><em>romant</em> Roman triplex 
+<BR><em>scriptc</em> Script complex 
+<BR><em>scripts</em> Script simplex 
 </DL>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The font type 
-<EM>romans</EM>
+<em>romans</em>
 is the fastest font type to display to the graphics monitor. 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.text.html">d.text</A></EM><br>
-<EM><A HREF="d.text.freetype.html">d.text.freetype</A></EM><br>
-<EM><A HREF="d.font.freetype.html">d.font.freetype</A></EM><br>
-<EM><A HREF="d.title.html">d.title</A></EM>
+<em><a href="d.text.html">d.text</a></em><br>
+<em><a href="d.text.freetype.html">d.text.freetype</a></em><br>
+<em><a href="d.font.freetype.html">d.font.freetype</a></em><br>
+<em><a href="d.title.html">d.title</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 James Westervelt, U.S. Army Construction Engineering 
 Research Laboratory
 
-<P>
-<EM>d.font</EM> uses the public domain version of the Hershey Fonts created 
+<p>
+<em>d.font</em> uses the public domain version of the Hershey Fonts created 
 by Dr. A.V. Hershey while working at the U.S. National Bureau of 
 Standards.
 

Modified: grass/branches/develbranch_6/display/d.font.freetype/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.font.freetype/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.font.freetype/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.font.freetype</EM>
+<em>d.font.freetype</em>
 selects the freetype font in which text will be displayed on the user's 
 graphics monitor.
 <BR>
@@ -13,7 +13,7 @@
 This internationalization can now display Japanese and other (asian) language
 texts from vector labels, legends, etc.
 
-<H2>USAGE</H2>
+<h2>USAGE</h2>
 
 To enable displaying of a TrueType font on the GRASS monitor, run:
 
@@ -45,7 +45,7 @@
 <BR>
 
 
-<H2>DEFINITION FILE</H2>
+<h2>DEFINITION FILE</h2>
 
 To help users select fonts conveniently, the definition file,
 <TT>$(GISBASE)/etc/freetypecap</TT>, is provided.  Its format is as follows:
@@ -58,16 +58,16 @@
 See the file for examples.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.text.html">d.text</A></EM><br>
-<EM><A HREF="d.text.freetype.html">d.text.freetype</A></EM><br>
-<EM><A HREF="d.font.html">d.font</A></EM><br>
-<EM><A HREF="d.vect.html">d.vect</A></EM><br>
+<em><a href="d.text.html">d.text</a></em><br>
+<em><a href="d.text.freetype.html">d.text.freetype</a></em><br>
+<em><a href="d.font.html">d.font</a></em><br>
+<em><a href="d.vect.html">d.vect</a></em><br>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
-<A HREF="http://www.foss4g.org">FOSS4G</A> members.<br>
+<a href="http://www.foss4g.org">FOSS4G</a> members.<br>
 Project sponsored by IPA (Information-technology Promotion Agency, Japan)
 
 <p>

Modified: grass/branches/develbranch_6/display/d.frame/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.frame/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.frame/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,51 +1,51 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 This program manages display frames on the user's graphics
 monitor. Graphics are displayed in rectangular frames on whatever graphics
 monitor the user is currently directing GRASS display
 output to.  These frames are created and managed with this
-module. Note that GRASS frame contents <EM>are not</EM>
+module. Note that GRASS frame contents <em>are not</em>
 retained when one frame covers another. You cannot
 shuffle frames from top to bottom and then back again.
 They simply define rectangular areas on the screen where
 subsequent drawing will occur.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-The coordinates for the <B>at=</B> option are stated in the form: 
-<EM>bottom,top,left,right</EM>. The lower-left corner of the graphics 
+The coordinates for the <b>at=</b> option are stated in the form: 
+<em>bottom,top,left,right</em>. The lower-left corner of the graphics 
 monitor always is at location 0,0 while the monitor's upper-right 
 corner is always at 100,100 (the values are in percent). 
-<P>
-If <B>at=</B> options are not given during frame correction the
+<p>
+If <b>at=</b> options are not given during frame correction the
 user will be prompted to create the frame using the mouse.
 Likewise if a frame name is not given during frame selection, the user
 will be prompted to select an existing frame on the display monitor
 using the mouse.
-<P>
+<p>
 If the user has created multiple display frames that overlap one another, 
 whatever the user displays in the active frame will overwrite 
 those portions of the underlying frame where these frames overlap. 
-<P>
-A frame by the name of <EM>full_screen</EM> is always present and may be
+<p>
+A frame by the name of <em>full_screen</em> is always present and may be
 selected at any time. This may be useful if you would like to de-select
 all user defined frames just before taking a screenshot.
 
-<H2>SEE ALSO</H2>
-<EM>
-<A HREF="d.erase.html">d.erase</A><br>
-<A HREF="d.extend.html">d.extend</A><br>
-<A HREF="d.info.html">d.info</A><br>
-<A HREF="d.mon.html">d.mon</A><br>
-<A HREF="d.monsize.html">d.monsize</A><br>
-<A HREF="d.mvmon.html">d.mvmon</A><br>
-<A HREF="d.redraw.html">d.redraw</A><br>
-<A HREF="d.resize.html">d.resize</A><br>
-<A HREF="d.save.html">d.save</A><br>
-<A HREF="d.split.html">d.split</A><br>
-</EM>
+<h2>SEE ALSO</h2>
+<em>
+<a href="d.erase.html">d.erase</a><br>
+<a href="d.extend.html">d.extend</a><br>
+<a href="d.info.html">d.info</a><br>
+<a href="d.mon.html">d.mon</a><br>
+<a href="d.monsize.html">d.monsize</a><br>
+<a href="d.mvmon.html">d.mvmon</a><br>
+<a href="d.redraw.html">d.redraw</a><br>
+<a href="d.resize.html">d.resize</a><br>
+<a href="d.save.html">d.save</a><br>
+<a href="d.split.html">d.split</a><br>
+</em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 James Westervelt, U.S. Army Construction Engineering 
 Research Laboratory

Modified: grass/branches/develbranch_6/display/d.geodesic/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.geodesic/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.geodesic/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,26 +1,26 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.geodesic</EM> displays a geodesic line in the active frame on the user's 
+<em>d.geodesic</em> displays a geodesic line in the active frame on the user's 
 graphics monitor. This is also known as the great circle line and traces the 
 shortest distance between two user-specified points on the curved surface of 
 a longitude/latitude data set. The two coordinate locations named must fall 
 within the boundaries of the user's current geographic region. 
 
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 This program can be run either interactively or non-interactively. 
-If the user types <B>d.geodesic</B> on the command line and runs it without other program 
+If the user types <b>d.geodesic</b> on the command line and runs it without other program 
 parameters, the mouse will be activated; the user is asked to use 
 the mouse to indicate the starting and ending points of each geodesic line 
 to be drawn. The default line color (black) and text color (red) 
 will be used. 
 
-<P>
+<p>
 Alternately, the user can specify the starting and ending coordinates 
 of the geodesic, line color, and text color on the command line, 
 and run the program non-interactively. 
 
-<P>
+<p>
 Once the user indicates the starting and ending coordinates 
 of the geodesic, the line and its length (in miles) are displayed to 
 the user's graphics monitor. If the text color is set to <em>none</em>,
@@ -41,16 +41,16 @@
 <i>Geodesic line (great circle line)</i>
 </center>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 This program works only with GRASS locations using a longitude/latitude 
 coordinate system. 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.rhumbline.html">d.rhumbline</A></EM>
+<em><a href="d.rhumbline.html">d.rhumbline</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro, U.S. Army Construction Engineering Research Laboratory
 

Modified: grass/branches/develbranch_6/display/d.graph/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.graph/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.graph/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,46 +1,46 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.graph</EM>
+<em>d.graph</em>
 draws graphics that are described either from standard input (default), 
 or within a file (if an <b>input</b> file name is identified on the 
 command line). If graphics commands are entered from standard input, 
-a <EM>CTRL-d</EM> is used to signal the end of input to <EM>d.graph</EM>.
+a <em>CTRL-d</em> is used to signal the end of input to <em>d.graph</em>.
 Coordinates are given either as a percentage of frame height and width
-(default) or in geographic coordinates (with the <B>-m</B> flag).
-<P>
+(default) or in geographic coordinates (with the <b>-m</b> flag).
+<p>
 
 The program can be run interactively or non-interactively. 
 The user can run the program completely non-interactively 
 by specifying the name of a graphics file containing the 
-<EM>d.graph</EM> graphics commands. If run non-interactively the
-<EM>d.graph</EM> command is saved to the display's dedraw history.
+<em>d.graph</em> graphics commands. If run non-interactively the
+<em>d.graph</em> command is saved to the display's dedraw history.
 
 The user can also elect to run the program partially interactively, 
-by specifying any/all of the parameters <EM>except</EM> 
-the graphics file <B>input=</B><EM>name</EM> parameter on the command line. 
-In this case, <EM>d.graph</EM> will expect the user to input <EM>d.graph</EM> 
+by specifying any/all of the parameters <em>except</em> 
+the graphics file <b>input=</b><em>name</em> parameter on the command line. 
+In this case, <em>d.graph</em> will expect the user to input <em>d.graph</em> 
 graphics commands from standard input (i.e., the keyboard) and 
 will (silently) prompt the user for these graphics commands. 
 
-<P>
-Alternately, the user can simply type <B>d.graph</B> on the command line, 
+<p>
+Alternately, the user can simply type <b>d.graph</b> on the command line, 
 and be prompted for the values of all parameters<!-- (the user can still 
 input graphics commands from either an input file or standard input 
 using this form)-->. In this case, the user is presented with the standard 
 GRASS GUI interface.
 
-<P>
+<p>
 The default coordinate system used is 0-100 percent of the active frame 
 in x and similarly 0-100 in y,
 regardless of the graphics monitor display frame size and aspect. 
 The (0,0) location is the lower left corner of the active graphics 
 monitor display frame. All values may be floating point.
-If the <B>-m</B> flag is given, geographic coordinates will be used instead.
+If the <b>-m</b> flag is given, geographic coordinates will be used instead.
 
 
-<H2>COMMANDS</H2>
+<h2>COMMANDS</h2>
 
-<P>
+<p>
 The graphics language is simple, and uses the following commands: 
 <BR>
 <DD>[
@@ -61,127 +61,127 @@
 
 <DL>
 <a name="comment"></a>
-<DT><B>#</B> <EM>comment</EM> 
+<DT><b>#</b> <em>comment</em> 
 <DD>A line of comment which is ignored in the processing. 
 
 <a name="move"></a>
-<DT><B>move</B> <EM>xpos ypos</EM> 
-<DD>The current location is updated to <EM>xpos ypos</EM>. 
+<DT><b>move</b> <em>xpos ypos</em> 
+<DD>The current location is updated to <em>xpos ypos</em>. 
 
-Unless the <B>-m</B> flag is used,
+Unless the <b>-m</b> flag is used,
 values are stated as a percent of the active display frame's 
-horizontal (<EM>xpos</EM>) and vertical (<EM>ypos</EM>) size, 
+horizontal (<em>xpos</em>) and vertical (<em>ypos</em>) size, 
 and may be floating point values. Values are between 0-100. 
-<B>Note.</B> A space must separate <EM>xpos</EM> and <EM>ypos</EM>.
+<b>Note.</b> A space must separate <em>xpos</em> and <em>ypos</em>.
 
 <a name="draw"></a>
-<DT><B>draw</B> <EM>xpos ypos</EM> 
+<DT><b>draw</b> <em>xpos ypos</em> 
 <DD>A line is drawn in the current color from the current location to the new 
-location <EM>xpos ypos</EM>, which then becomes the current location. 
-Unless the <B>-m</B> flag is used,
+location <em>xpos ypos</em>, which then becomes the current location. 
+Unless the <b>-m</b> flag is used,
 values are stated as a percent of the active display frame's 
-horizontal (<EM>xpos</EM>) and vertical (<EM>ypos</EM>) size, 
+horizontal (<em>xpos</em>) and vertical (<em>ypos</em>) size, 
 and may be floating point values. Values are between 0-100. 
-<B>Note.</B> A space must separate <EM>xpos</EM> and <EM>ypos</EM>. 
+<b>Note.</b> A space must separate <em>xpos</em> and <em>ypos</em>. 
 
 <a name="polygon"></a>
-<DT><B>polygon</B> 
-<BR>&nbsp;&nbsp;<EM> xpos ypos</EM> 
-<BR>&nbsp;&nbsp;<EM> xpos ypos</EM> 
+<DT><b>polygon</b> 
+<BR>&nbsp;&nbsp;<em> xpos ypos</em> 
+<BR>&nbsp;&nbsp;<em> xpos ypos</em> 
 <BR>&nbsp;&nbsp;... 
 
-<DD>The coordinates appearing beneath the word <EM>polygon</EM>, 
+<DD>The coordinates appearing beneath the word <em>polygon</em>, 
 one pair per line, 
 circumscribe a polygon that is to be filled with the current color. 
 
 <a name="polyline"></a>
-<DT><B>polyline</B> 
-<BR>&nbsp;&nbsp;<EM> xpos ypos</EM> 
-<BR>&nbsp;&nbsp;<EM> xpos ypos</EM> 
+<DT><b>polyline</b> 
+<BR>&nbsp;&nbsp;<em> xpos ypos</em> 
+<BR>&nbsp;&nbsp;<em> xpos ypos</em> 
 <BR>&nbsp;&nbsp;... 
 
-<DD>The coordinates appearing beneath the word <EM>polyline</EM>, 
+<DD>The coordinates appearing beneath the word <em>polyline</em>, 
 one pair per line, 
 circumscribe a polygon that is not to be filled with color. 
 
 <a name="color"></a>
-<DT><B>color</B> <EM>color</EM> 
+<DT><b>color</b> <em>color</em> 
 <DD>Sets the current color to that stated; subsequent graphics will be drawn 
 in the stated color, until the current color is set to a different color. 
-Options are <EM>red</EM>, 
-<EM>orange</EM>,
-<EM>yellow</EM>,
-<EM>green</EM>,
-<EM>blue</EM>,
-<EM>indigo</EM>,
-<EM>violet</EM>,
-<EM>brown</EM>,
-<EM>magenta</EM>,
-<EM>gray</EM>,
-<EM>white</EM>,
-<EM>black</EM>,
+Options are <em>red</em>, 
+<em>orange</em>,
+<em>yellow</em>,
+<em>green</em>,
+<em>blue</em>,
+<em>indigo</em>,
+<em>violet</em>,
+<em>brown</em>,
+<em>magenta</em>,
+<em>gray</em>,
+<em>white</em>,
+<em>black</em>,
 an R:G:B triplet (separated by colons),
 or the word "none" (draws in the default background color).
 
 <a name="text"></a>
-<DT><B>text</B> <EM>line-of-text</EM> 
+<DT><b>text</b> <em>line-of-text</em> 
 <DD>The stated text is drawn at the current location using the current color, 
 and the new current location is then positioned at the end of the text string. 
 
 <a name="size"></a>
-<DT><B>size</B> <EM>xper yper</EM> 
+<DT><b>size</b> <em>xper yper</em> 
 <DD>Subsequent text will be drawn such that the text is 
-<EM>xper</EM> percent of the graphics monitor display frame wide and 
-<EM>yper</EM> percent of the frame high. By default, the text size is set to
+<em>xper</em> percent of the graphics monitor display frame wide and 
+<em>yper</em> percent of the frame high. By default, the text size is set to
 5 percent of the active frame's width and 5 percent of the frame's height.
 If only one value is given, then that value will be used for both x and y 
 scaling.
 <BR>
-<B>Note.</B> A space must separate <EM>xper</EM> and <EM>yper</EM>.
+<b>Note.</b> A space must separate <em>xper</em> and <em>yper</em>.
 
 <a name="symbol"></a>
-<DT><B>symbol</B> <EM>type size xper yper [line_color [fill_color]]</EM>
+<DT><b>symbol</b> <em>type size xper yper [line_color [fill_color]]</em>
 <DD>A symbol is drawn at the given size on the display monitor. The
-<EM>xper</EM> and <EM>yper</EM> options define the center of the icon and
+<em>xper</em> and <em>yper</em> options define the center of the icon and
 are given as a percentage of the display frame (<tt>0,0</tt> is lower left).
 The symbol can be any of those stored in <tt>$GISBASE/etc/symbol/</tt>
 (e.g. <i>basic/circle</i>) or stored in the user's mapset directory in the
 form <tt>$MAPSET/symbol/</tt><em>type/name</em>.
 The colors may be either a standard color name, an R:G:B triplet,
 or "none". If using an R:G:B triplet, each color value can range from 0-255.
-If not specified the default <EM>line_color</EM> is black and the default 
-<EM>fill_color</EM> is grey.
+If not specified the default <em>line_color</em> is black and the default 
+<em>fill_color</em> is grey.
 
 <a name="rotation"></a>
-<DT><B>rotation</B> <EM>angle</EM> 
+<DT><b>rotation</b> <em>angle</em> 
 <DD>Subsequent text and symbols will be drawn such that they are rotated 
 <em>angle</em> degrees counter-clockwise from east.
 
 <a name="icon"></a>
-<DT><B>icon</B> <EM>type size x y</EM> 
-<DD>Draws an icon of types <EM>o</EM>, <EM>x</EM>, or <EM>+</EM> 
-with specified <EM>size</EM> (in %) at location <EM>x,y</EM>. 
-Note: type <EM>o</EM> designates a square.
+<DT><b>icon</b> <em>type size x y</em> 
+<DD>Draws an icon of types <em>o</em>, <em>x</em>, or <em>+</em> 
+with specified <em>size</em> (in %) at location <em>x,y</em>. 
+Note: type <em>o</em> designates a square.
 <BR>
 
 <a name="width"></a>
-<DT><B>width</B> <EM>value</EM> 
+<DT><b>width</b> <em>value</em> 
 <DD>Subsequent lines (including non-FreeType text) will be drawn with
 the given pixel thickness.
 <BR>The default value is 0.
 
 </DL>
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
-For an example use of <EM>d.graph</EM>, examine the contents of the  
-command file <EM><a href="grass_logo.txt">grass_logo.txt</a></EM>
-located in the <EM>d.graph</EM> source code directory. It will draw the
-CERL GRASS logo using the <EM>d.graph</EM> graphing commands stored in the file. 
-Note that the coordinates in the <EM><a href="grass_logo.txt">grass_logo.txt</a></EM> file were 
+For an example use of <em>d.graph</em>, examine the contents of the  
+command file <em><a href="grass_logo.txt">grass_logo.txt</a></em>
+located in the <em>d.graph</em> source code directory. It will draw the
+CERL GRASS logo using the <em>d.graph</em> graphing commands stored in the file. 
+Note that the coordinates in the <em><a href="grass_logo.txt">grass_logo.txt</a></em> file were 
 taken directly off an image drawn by hand on graph paper. 
 <!-- formerly names "grass.logo.sh" in GRASS 5 code. -->
-<P>
+<p>
 A dynamic example can be found in the <em>d.polar</em> shell script.
 
 
@@ -213,36 +213,36 @@
 </pre></div>
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-<EM>d.graph</EM> remembers the last screen location (<EM>xpos ypos</EM>) to which 
+<em>d.graph</em> remembers the last screen location (<em>xpos ypos</em>) to which 
 the user moved, even after the user erases the display frame. 
-If the user runs <EM>d.graph</EM> repeatedly, and wishes to start anew with 
-the default (xpos ypos) screen location, the user should <EM>clear</EM> the 
-display frame between runs of <EM>d.graph</EM>.
+If the user runs <em>d.graph</em> repeatedly, and wishes to start anew with 
+the default (xpos ypos) screen location, the user should <em>clear</em> the 
+display frame between runs of <em>d.graph</em>.
 
-<H2>LIMITATIONS</H2>
+<h2>LIMITATIONS</h2>
 
 There are no automated ways of generating graphic images. It is anticipated 
 that GRASS user sites will write programs to convert output from a resident 
-graphics editor into GRASS <EM>d.graph</EM> format.
+graphics editor into GRASS <em>d.graph</em> format.
 (e.g. EPS -> <em>d.graph</em>, perhaps with the help of a
 <a href="http://www.pstoedit.net/">pstoedit</a> plugin)
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.font.html">d.font</A></EM><br>
-<EM><A HREF="d.font.freetype.html">d.font.freetype</A></EM><br>
-<EM><A HREF="d.frame.html">d.frame</A></EM><br>
-<EM><A HREF="d.labels.html">d.labels</A></EM><br>
-<!-- <EM><A HREF="d.mapgraph.html">d.mapgraph</A></EM><br> superseded by -m -->
-<EM><A HREF="d.polar.html">d.polar</A></EM><br>
-<EM><A HREF="d.text.html">d.text</A></EM><br>
-<EM><A HREF="d.text.freetype.html">d.text.freetype</A></EM><br>
-<EM><A HREF="d.where.html">d.where</A></EM><br>
-<!-- <EM><A HREF="grass.logo.sh.html">grass.logo.sh</A></EM><br> -->
+<em><a href="d.font.html">d.font</a></em><br>
+<em><a href="d.font.freetype.html">d.font.freetype</a></em><br>
+<em><a href="d.frame.html">d.frame</a></em><br>
+<em><a href="d.labels.html">d.labels</a></em><br>
+<!-- <em><a href="d.mapgraph.html">d.mapgraph</a></em><br> superseded by -m -->
+<em><a href="d.polar.html">d.polar</a></em><br>
+<em><a href="d.text.html">d.text</a></em><br>
+<em><a href="d.text.freetype.html">d.text.freetype</a></em><br>
+<em><a href="d.where.html">d.where</a></em><br>
+<!-- <em><a href="grass.logo.sh.html">grass.logo.sh</a></em><br> -->
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 James Westervelt, U.S. Army Construction Engineering Research Laboratory
 <br><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/display/d.grid/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.grid/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.grid/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,45 +1,45 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.grid</EM> overlays a grid of user-defined size and
+<em>d.grid</em> overlays a grid of user-defined size and
 color in the active display frame on the graphics monitor.
 The grid can be created as a standard rectangular grid or
 a geographic grid. The grid will overlay, not overwrite,
 the contents of the active display frame.
 
-<P>
+<p>
 
-<EM>d.grid</EM> can be run non-interactively or
+<em>d.grid</em> can be run non-interactively or
 interactively.  If the user specifies the grid
-<EM>size</EM> and (optionally) the grid <EM>color</EM> on
+<em>size</em> and (optionally) the grid <em>color</em> on
 the command line the program will run non-interactively; if
-no grid <EM>color</EM> is given the default will be used.
-Alternately, the user may simply type <B>d.grid</B> on the
+no grid <em>color</em> is given the default will be used.
+Alternately, the user may simply type <b>d.grid</b> on the
 command line; in this case, the program will prompt the
 user for parameter values using the standard GRASS graphical 
 user interface.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-<EM>d.grid</EM> will not erase grids already displayed in
+<em>d.grid</em> will not erase grids already displayed in
 the active graphics display frame by previous invocations
-of <EM>d.grid</EM>; multiple invocations of <EM>d.grid</EM>
+of <em>d.grid</em>; multiple invocations of <em>d.grid</em>
 will therefore result in the drawing of multiple grids
 inside the active graphics frame.  (A command like 
-<EM><A HREF="d.erase.html">d.erase</A></EM>, which erases the
+<em><a href="d.erase.html">d.erase</a></em>, which erases the
 entire contents of the active display frame, must be run to
 erase previously drawn grids from the display frame.)
 
-<P>
+<p>
 If the user provides a 
-<EM>-g</EM> flag a geographic (projected) grid 
-will be drawn. With the <EM>-g</EM> flag the <EM>size</EM> 
+<em>-g</em> flag a geographic (projected) grid 
+will be drawn. With the <em>-g</em> flag the <em>size</em> 
 argument accepts both decimal degrees and colon separated 
 ddd:mm:ss coordinates (eg. <tt>00:30:00</tt> for half of a degree).
 
 <p>
-A geographic grid cannot be drawn for a <EM>latitude/longitude</EM> 
-or <EM>XY</EM> projection.
+A geographic grid cannot be drawn for a <em>latitude/longitude</em> 
+or <em>XY</em> projection.
 <p>
 Colors may be standard named GRASS colors (red, green, aqua, etc.) or
 a numerical R:G:B triplet, where component values range from 0-255.<BR>
@@ -49,7 +49,7 @@
 The coordinate text may be turned off by using the <em>-t</em> flag.<BR>
 
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 To draw a red geographic grid with 30 minute grid spacing run 
 either of the following:
 <PRE>
@@ -65,19 +65,19 @@
 </PRE>
 <BR>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.barscale.html">d.barscale</A></EM><br>
-<EM><A HREF="d.legend.html">d.legend</A></EM><br>
-<EM><A HREF="d.geodesic.html">d.geodesic</A></EM><br>
-<EM><A HREF="d.rhumbline.html">d.rhumbline</A></EM><br>
-<EM><A HREF="d.erase.html">d.erase</A></EM><br>
-<EM><A HREF="d.frame.html">d.frame</A></EM><br>
-<EM><A HREF="d.rast.html">d.rast</A></EM><br>
+<em><a href="d.barscale.html">d.barscale</a></em><br>
+<em><a href="d.legend.html">d.legend</a></em><br>
+<em><a href="d.geodesic.html">d.geodesic</a></em><br>
+<em><a href="d.rhumbline.html">d.rhumbline</a></em><br>
+<em><a href="d.erase.html">d.erase</a></em><br>
+<em><a href="d.frame.html">d.frame</a></em><br>
+<em><a href="d.rast.html">d.rast</a></em><br>
 
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 James Westervelt, U.S. Army Construction Engineering Research Laboratory<BR>
 Geogrid support: Bob Covill<BR>

Modified: grass/branches/develbranch_6/display/d.his/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.his/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.his/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,44 +1,44 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>his</EM> stands for hue, intensity, and saturation.
+<em>his</em> stands for hue, intensity, and saturation.
 This program produces a raster map layer providing a
 visually pleasing combination of hue, intensity, and
 saturation values from two or three user-specified raster
 map layers.
 
-<P>
+<p>
 
 The human brain automatically interprets the vast amount of
 visual information available according to basic rules. 
-Color, or <EM>hue</EM>, is used to categorize objects. 
-Shading, or <EM>intensity</EM>, is interpreted as
+Color, or <em>hue</em>, is used to categorize objects. 
+Shading, or <em>intensity</em>, is interpreted as
 three-dimensional texturing. Finally, the degree of
-haziness, or <EM>saturation</EM>, is associated with
+haziness, or <em>saturation</em>, is associated with
 distance or depth. This program allows data from up to
 three raster map layers to be combined into an image which
-retains the original information in terms of <EM>hue</EM>,
-<EM>intensity</EM>, and <EM>saturation</EM>.
+retains the original information in terms of <em>hue</em>,
+<em>intensity</em>, and <em>saturation</em>.
 
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 This program can be run non-interactively or
 interactively.  It will run non-interactively if the user
 specifies on the command line the name of a map containing
-hue values (<B>h_map</B>), and the name(s) of map(s)
-containing intensity values (<B>i_map</B>) and/or
-saturation values (<B>s_map</B>).  The resulting image will
+hue values (<b>h_map</b>), and the name(s) of map(s)
+containing intensity values (<b>i_map</b>) and/or
+saturation values (<b>s_map</b>).  The resulting image will
 be displayed in the active display frame on the graphics
 monitor.
 
-<P>
+<p>
 
 Alternately, the user can run the program interactively by
-typing <B>d.his</B> without naming parameter values on the
+typing <b>d.his</b> without naming parameter values on the
 command line.  In this case, the program will prompt the
 user for parameter values using the standard GRASS 
 GUI interface.
 
-<P>
+<p>
 
 While any raster map layer can be used to represent the hue
 information, map layers with a few very distinct colors
@@ -47,42 +47,42 @@
 intensities, or amounts can suitably be used to provide
 intensity and saturation information.
 
-<P>
+<p>
 
 For example, a visually pleasing image can be
-made by using a watershed map for the <EM>hue</EM> factor,
-an aspect map for the <EM>intensity</EM> factor, and an
-elevation map for <EM>saturation</EM>.  (The user may wish
+made by using a watershed map for the <em>hue</em> factor,
+an aspect map for the <em>intensity</em> factor, and an
+elevation map for <em>saturation</em>.  (The user may wish
 to leave out the elevation information for a first try.)
 Ideally, the resulting image should resemble the view from
 an aircraft looking at a terrain on a sunny day with a bit
 of haze in the valleys.
 
-<P>
+<p>
 The <b>brighten</b> option does not truly represent a percentage,
 but calling it that makes the option easy to understand, and it
 sounds better than <i>Normalized Scaling Factor</i>.
 
 
-<H2>THE PROCESS</H2>
+<h2>THE PROCESS</h2>
 
 Each map cell is processed individually. First, the working
 color is set to the color of the corresponding cell in the
-map layer chosen to represent <EM>HUE</EM>.  Second, this
-color is multiplied by the <EM>red</EM> intensity of that
-cell in the <EM>INTENSITY</EM> map layer.  This map layer
+map layer chosen to represent <em>HUE</em>.  Second, this
+color is multiplied by the <em>red</em> intensity of that
+cell in the <em>INTENSITY</em> map layer.  This map layer
 should have an appropriate gray-scale color table
 associated with it. You can ensure this by using the color
 manipulation capabilities of
-<EM><A HREF="d.colors.html">d.colors</A></EM> or
-<EM><A HREF="r.colors.html">r.colors</A></EM>.
+<em><a href="d.colors.html">d.colors</a></em> or
+<em><a href="r.colors.html">r.colors</a></em>.
 
 Finally, the color is made somewhat gray-based on the
-<EM>red</EM> intensity of that cell in the
-<EM>SATURATION</EM> map layer.  Again, this map layer
+<em>red</em> intensity of that cell in the
+<em>SATURATION</em> map layer.  Again, this map layer
 should have a gray-scale color table associated with it.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The name is misleading. The actual conversion used is
 
@@ -98,20 +98,20 @@
 
 </PRE>
 
-<P>
+<p>
 
 Either (but not both) of the intensity or the saturation
 map layers may be omitted. This means that it is possible
 to produce output images that represent combinations of
-<EM>his, hi,</EM> or <EM>hs</EM>.
+<em>his, hi,</em> or <em>hs</em>.
 
-<P>
+<p>
 Users wishing to store the result in new raster map layers
 instead of displaying it on the monitor should use the
-program <EM><A HREF="r.his.html">r.his</A></EM>.
+program <em><a href="r.his.html">r.his</a></em>.
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 <h3>Spearfish dataset</h3>
 
 <div class="code"><pre>
@@ -122,20 +122,20 @@
 </pre></div>
 <BR>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="d.colors.html">d.colors</A>,
-<A HREF="d.colortable.html">d.colortable</A>,
-<A HREF="d.frame.html">d.frame</A>,
-<A HREF="d.rgb.html">d.rgb</A>,
-<A HREF="r.colors.html">r.colors</A>,
-<A HREF="r.his.html">r.his</A>,
-<A HREF="i.his.rgb.html">i.his.rgb</A>,
-<A HREF="i.rgb.his.html">i.rgb.his</A>
-</EM>
+<em>
+<a href="d.colors.html">d.colors</a>,
+<a href="d.colortable.html">d.colortable</a>,
+<a href="d.frame.html">d.frame</a>,
+<a href="d.rgb.html">d.rgb</a>,
+<a href="r.colors.html">r.colors</a>,
+<a href="r.his.html">r.his</a>,
+<a href="i.his.rgb.html">i.his.rgb</a>,
+<a href="i.rgb.his.html">i.rgb.his</a>
+</em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 James Westervelt, U.S. Army Construction Engineering Research Laboratory
 

Modified: grass/branches/develbranch_6/display/d.histogram/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.histogram/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.histogram/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,22 +1,22 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.histogram</EM> displays the category-value distribution for a
+<em>d.histogram</em> displays the category-value distribution for a
 user-specified raster map layer, in the form of a bar chart or a pie chart. 
 The display will be displayed in the active display frame on the graphics
 monitor, using the colors in the raster map layer's color table.  The
 program determines the raster map's category value distribution by counting
 cells.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-<EM>d.histogram</EM> respects the current geographic region settings 
+<em>d.histogram</em> respects the current geographic region settings 
 and the current MASK (if one exists). 
 
-<P>
-<EM>d.histogram</EM> uses the colors in the map's color look-up table
-(i.e., the map's <EM>colr</EM> or <EM>colr2</EM> file).
+<p>
+<em>d.histogram</em> uses the colors in the map's color look-up table
+(i.e., the map's <em>colr</em> or <em>colr2</em> file).
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 <em>
 <a href="d.colors.html">d.colors</a>,
@@ -29,7 +29,7 @@
 <a href="r.stats.html">r.stats</a>
 </em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Dave Johnson
 <BR> DBA Systems, Inc. 

Modified: grass/branches/develbranch_6/display/d.info/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.info/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.info/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -2,7 +2,7 @@
 
 <em>d.info</em> displays information about the active display monitor.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Units are screen pixels (except for <em>-g</em> flag where map units
 are used).<BR>
@@ -10,14 +10,14 @@
 Where four numbers are given the format is: left, right, top, bottom.
 <BR><BR>
 Note: GRASS display pixel coordinates are measured from the top left.
-<P>
+<p>
 <BR>
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.frame.html">d.frame</a></em><br>
-<em><a HREF="d.vect.html">d.vect</a></em><br>
-<em><a HREF="d.rast.html">d.rast</a></em><br>
+<em><a href="d.frame.html">d.frame</a></em><br>
+<em><a href="d.vect.html">d.vect</a></em><br>
+<em><a href="d.rast.html">d.rast</a></em><br>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/display/d.legend/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.legend/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.legend/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,77 +1,77 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.legend</EM> displays a legend for a user-specified
+<em>d.legend</em> displays a legend for a user-specified
 raster map layer in the active frame on the graphics
 monitor.  
-<P>
+<p>
 
-The user can run <EM>d.legend</EM> either non-interactively
+The user can run <em>d.legend</em> either non-interactively
 or interactively.  If the user specifies the name of a
-raster <B>map</B> layer on the command line, the program
+raster <b>map</b> layer on the command line, the program
 will run non-interactively.  Default legend text
-<B>color</B> and position will be used unless
+<b>color</b> and position will be used unless
 the user specifies other values on the command line.
 
-<P>
+<p>
 
-Alternately, the user can simply type <B>d.legend</B> on the command line; 
+Alternately, the user can simply type <b>d.legend</b> on the command line; 
 in this case, the program will prompt the user for parameter values 
 using the standard GRASS GUI interface.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The legend's default size is based on the dimensions of the
-active frame, specifically its height.  <EM>d.legend</EM> will only
+active frame, specifically its height.  <em>d.legend</em> will only
 obscure those portions of the active frame that directly underlie the legend.
 <p>
-When using the mouse or <B>at</B> to size &amp; place the legend, a user may
+When using the mouse or <b>at</b> to size &amp; place the legend, a user may
 create a horizontal legend by making the box wider than it is tall.
 <p>
 Raster maps based on floating point values will display smoothed, from greatest
 to smallest value, while categorial raster maps will display in order, from
 top to bottom. Horizontal legends will always be smoothed. If the box is defined
-with inverted y-values or an inverted <B>range</B>, the legend will automatically
-flip. If this is not the desired result, the <B>-f</B> flag may be used to flip
+with inverted y-values or an inverted <b>range</b>, the legend will automatically
+flip. If this is not the desired result, the <b>-f</b> flag may be used to flip
 it back.
 <p>
 If the user attempts to display a very long legend in a relatively short 
 display frame, the legend may appear in unreadably small text, or even revert
-to a smooth gradient legend. Use the <B>lines</B>, <B>thin</B>, <B>use</B>, <B>range</B>,
-and/or <B>-n</B> options to reduce the number of categories to be displayed,
-or the <B>-s</B> flag to force a smooth gradient legend.
+to a smooth gradient legend. Use the <b>lines</b>, <b>thin</b>, <b>use</b>, <b>range</b>,
+and/or <b>-n</b> options to reduce the number of categories to be displayed,
+or the <b>-s</b> flag to force a smooth gradient legend.
 <p>
-The <B>lines</B> option will display the first number of categories, as defined
-by <EM>value</EM>, contained in the raster map. When used with the <B>-n</B> flag,
+The <b>lines</b> option will display the first number of categories, as defined
+by <em>value</em>, contained in the raster map. When used with the <b>-n</b> flag,
 it takes on a new meaning: "up to category #". When used with both
-<B>thin</B> and the <B>-n</B> flag, its meaning becomes more obscure. When
-using <B>lines</B>, auto-scaled text similar to "4 of 16 categories" will be placed at 
+<b>thin</b> and the <b>-n</b> flag, its meaning becomes more obscure. When
+using <b>lines</b>, auto-scaled text similar to "4 of 16 categories" will be placed at 
 the bottom of the legend.
 <p>
-The <B>thin</B> option sets the thinning factor. For raster maps with a 0th
-category, <B>thin=</B><EM>10</EM> gives cats [0,10,20,...]. For raster maps 
-starting at category 1, <B>thin=</B><EM>10</EM> gives cats [1,11,21,...].
+The <b>thin</b> option sets the thinning factor. For raster maps with a 0th
+category, <b>thin=</b><em>10</em> gives cats [0,10,20,...]. For raster maps 
+starting at category 1, <b>thin=</b><em>10</em> gives cats [1,11,21,...].
 <p>
-The <B>use</B> option lets the user create a legend made up of arbitrary category
-values. e.g.&nbsp;<B>use=</B><EM>1000,100,10,0,-10,-100,-1000</EM>
+The <b>use</b> option lets the user create a legend made up of arbitrary category
+values. e.g.&nbsp;<b>use=</b><em>1000,100,10,0,-10,-100,-1000</em>
 <p>
-The <B>range</B> option lets the user define the minimum and maximum categories
+The <b>range</b> option lets the user define the minimum and maximum categories
 to be used in the legend. It may also be used to define the limits of a smooth
 gradient legend created from a raster containing floating point values. Note
 the color scale will remain faithful to the category values as defined with
-<EM><A HREF="r.colors.html">r.colors</A></EM>, and the <B>range</B> may be
-extended to the limits defined by the <EM><A HREF="r.colors.html">r.colors</A></EM>
+<em><a href="r.colors.html">r.colors</a></em>, and the <b>range</b> may be
+extended to the limits defined by the <em><a href="r.colors.html">r.colors</a></em>
 color map.
 <p>
-The flag <B>-n</B> is useful for categorial maps, as it suppresses the
+The flag <b>-n</b> is useful for categorial maps, as it suppresses the
 drawing of non-existing categories (otherwise the full range is shown).
 <p>
-Vertical legends produced with <EM>d.legend</EM> will place text labels to the
+Vertical legends produced with <em>d.legend</em> will place text labels to the
 right of the legend box, horizontal legends will place text below. This text
 will be auto-scaled to fit within the frame, reducing the size of the legend
-if necessary. Legends positioned with the mouse or with the <B>at</B> option
+if necessary. Legends positioned with the mouse or with the <b>at</b> option
 will not auto-scale text, in order to provide more control to the user.
 Smaller text may be obtained in this case by reducing the
-height of the box. The <B>-c</B> and <B>-v</B> flags may be used to suppress the
+height of the box. The <b>-c</b> and <b>-v</b> flags may be used to suppress the
 display of category numbers and labels respectively, or used together to 
 suppress all text of categorial raster maps.
 <p>
@@ -81,36 +81,36 @@
 <p>
 Legends placed with the mouse are not saved to the display window's history
 for automatic redraw. By setting the Debug level to 1 (see 
-<EM><A HREF="g.gisenv.html">g.gisenv</A></EM>) the corresponding <b>at</b>
+<em><a href="g.gisenv.html">g.gisenv</a></em>) the corresponding <b>at</b>
 setting can be determined.
 <p>
-Note that old scripts which relied on setting <B>lines</B> greater than the
+Note that old scripts which relied on setting <b>lines</b> greater than the
 number of categories to scale the legend may no longer produce the desired
 output, although the auto-scaling should still produce something that looks 
 good in this case.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.barscale.html">d.barscale</A></EM><BR>
-<EM><A HREF="d.colors.html">d.colors</A></EM><BR>
-<EM><A HREF="d.colortable.html">d.colortable</A></EM><BR>
-<EM><A HREF="d.erase.html">d.erase</A></EM><BR>
-<EM><A HREF="d.font.html">d.font</A></EM><BR>
-<EM><A HREF="d.font.freetype.html">d.font.freetype</A></EM><BR>
-<EM><A HREF="d.grid.html">d.grid</A></EM><BR>
-<EM><A HREF="d.rast.html">d.rast</A></EM><BR>
-<!-- <EM><A HREF="d.rast.labels.html">d.rast.labels</A></EM><BR> -->
-<EM><A HREF="d.rast.leg.html">d.rast.leg</A></EM><BR>
-<EM><A HREF="d.text.html">d.text</A></EM><BR>
-<EM><A HREF="d.text.freetype.html">d.text.freetype</A></EM><BR>
-<EM><A HREF="d.vect.thematic.html">d.vect.thematic</A></EM><BR>
-<EM><A HREF="d.what.rast.html">d.what.rast</A></EM><BR>
-<EM><A HREF="g.gisenv.html">g.gisenv</A></EM><BR>
-<EM><A HREF="r.reclass.html">r.reclass</A></EM><BR>
+<em><a href="d.barscale.html">d.barscale</a></em><BR>
+<em><a href="d.colors.html">d.colors</a></em><BR>
+<em><a href="d.colortable.html">d.colortable</a></em><BR>
+<em><a href="d.erase.html">d.erase</a></em><BR>
+<em><a href="d.font.html">d.font</a></em><BR>
+<em><a href="d.font.freetype.html">d.font.freetype</a></em><BR>
+<em><a href="d.grid.html">d.grid</a></em><BR>
+<em><a href="d.rast.html">d.rast</a></em><BR>
+<!-- <em><a href="d.rast.labels.html">d.rast.labels</a></em><BR> -->
+<em><a href="d.rast.leg.html">d.rast.leg</a></em><BR>
+<em><a href="d.text.html">d.text</a></em><BR>
+<em><a href="d.text.freetype.html">d.text.freetype</a></em><BR>
+<em><a href="d.vect.thematic.html">d.vect.thematic</a></em><BR>
+<em><a href="d.what.rast.html">d.what.rast</a></em><BR>
+<em><a href="g.gisenv.html">g.gisenv</a></em><BR>
+<em><a href="r.reclass.html">r.reclass</a></em><BR>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 Bill Brown, U.S. Army Construction Engineering Research Laboratories
 <BR>Late 2002: Rewrite of much of the code. Hamish Bowman,
  Otago University, New Zealand

Modified: grass/branches/develbranch_6/display/d.linegraph/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.linegraph/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.linegraph/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,8 +1,8 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.linegraph</EM> is a primitive program to draw simple x,y line graphs
+<em>d.linegraph</em> is a primitive program to draw simple x,y line graphs
 based on numerical data contained in separate files.
-<P>
+<p>
 Data file format<BR>
 The X and Y data files for the graph are essentially a column of numbers in
 each file, with one input number per line.  The program expects that each X
@@ -17,14 +17,14 @@
 with dissimilar units, the graph produced comparing the two will be
 deceptive.
 
-<P>
+<p>
 <DL>
-<DT><B>directoryname</B>
+<DT><b>directoryname</b>
 <DD>Path to the directory where the input files are located. If this option
-is not used, the <EM>d.linegraph</EM> looks for files in the current directory.
+is not used, the <em>d.linegraph</em> looks for files in the current directory.
 <DD>Example format: directory/usr/grass/data/graph
 
-<DT><B>ycoloroption[,option,...]]</B>
+<DT><b>ycoloroption[,option,...]]</b>
 <DD>Color to be used for drawing the lines in the graph. If multiple Y data
 files are used, an equal number of colors may be used to control the colors
 of the lines. Colors will be assigned to Y data in respect to the sequence
@@ -34,61 +34,61 @@
 <DD>Order of default colors: yellow, red, green, violet, blue, orange, gray,
 brown, magenta, white, indigo).
 
-<DT><B>titlecoloroption</B>
+<DT><b>titlecoloroption</b>
 <DD>The color to be used for titles, axis lines, tics, and scale numbers.  
 <DD>Default: "white"
 <DD>Color options: red, orange, yellow, green, blue, indigo, violet,
 magenta, brown, gray, white, and black.
 
-<DT><B>xtitlevalue</B>
+<DT><b>xtitlevalue</b>
 <DD>Title to describe X data. Will be centered beneath the graph. Default
 is no title unless the need for a unit descriptor is computed by the program
 (i.e. X: title in hundreds).  Also, see NOTES section (below) for a format
 caveat for multi-word titles.
 
-<DT><B>ytitlevalue</B>
+<DT><b>ytitlevalue</b>
 <DD>Title to describe Y data. Will be centered beneath the X data title.
 Default is no title unless the need for a unit descriptor is computed by
 the program (i.e. Y: ttiittllee in thousands). Also, see NOTES section
 (below) for a format caveat for multi-word titles. In the case of graphs
 with multiple lines, one may wish to use more specific title placement by
-using the <EM>d.text</EM> or <EM>v.label</EM> programs.
+using the <em>d.text</em> or <em>v.label</em> programs.
 
-<DT><B>titlevalue</B>
+<DT><b>titlevalue</b>
 <DD>Title to describe the graph. Will be centered over the top of graph.
 Default is no title. See NOTES section (below) for a format caveat for
 multi-word titles.
 </DL>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 Since the command line parser is not amiable to multiple word inputs, to
 input titles of more than one word, use the underscore character ("") to
 represent spaces (" ").
-<P>
+<p>
 Example: "titleCensusdata1990" would be printed over the graph as "Census
 data 1990".
-<P>
+<p>
 The way the program locates and labels tic marks is less than perfect: 1)
 although distances between Y tics is proportional to the value, they are
 not proportional on the X axis; 2) decimal values between -1 and 1 can be
 printed on the X axis, but not on Y. (With respect to the later, the input
 for Y values can all be multiplied by a factor of 10 before graphing).
 
-<P>
+<p>
 It might be easier to use a 3rd party tool such as xgraph or GNUplot instead
 of <em>d.linegraph</em>.
 .
 (You can make GNUplot output pretty by using its SVG or PostScript output
 driver and converting that back into a rasterized image in a paint program)
 
-<H2>SEE ALSO</H2>
-<EM>
-<A HREF="d.frame.html">d.frame</A>,
-<A HREF="d.text.html">d.text</A>,
-<A HREF="v.label.html">v.label</A>
-</EM>
+<h2>SEE ALSO</h2>
+<em>
+<a href="d.frame.html">d.frame</a>,
+<a href="d.text.html">d.text</a>,
+<a href="v.label.html">v.label</a>
+</em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 Chris Rewerts, Agricultural Engineering, Purdue University
 
 <p>

Modified: grass/branches/develbranch_6/display/d.mapgraph/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.mapgraph/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.mapgraph/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -3,61 +3,61 @@
 <BR>Please use "<em><a href="d.graph.html">d.graph</a>
 <b>-m</b></em>" instead.</H3>
 
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.mapgraph</EM> draws graphics that are described in
+<em>d.mapgraph</em> draws graphics that are described in
 standard input (default) or the UNIX input file
-<EM>name</EM>. If commands are entered via standard
-input, a <EM>ctrl-d</EM> is used to signal the end of input
-to <EM>d.mapgraph</EM>. This program performs
+<em>name</em>. If commands are entered via standard
+input, a <em>ctrl-d</em> is used to signal the end of input
+to <em>d.mapgraph</em>. This program performs
 essentially the same function as 
-<EM><A HREF="d.graph.html">d.graph</A></EM>; however,
-point locations are specified to <EM>d.mapgraph</EM> in the
+<em><a href="d.graph.html">d.graph</a></em>; however,
+point locations are specified to <em>d.mapgraph</em> in the
 geographic coordinate system of the user's current mapset
 and location (i.e., in map coordinates), rather than in
 graphics display screen coordinates.
 
-<P>
+<p>
 
 The program can be run interactively or non-interactively.
 The user can run the program completely non-interactively
 by specifying the name of a file containing
-<EM>d.mapgraph</EM> graphics commands and the values of all
+<em>d.mapgraph</em> graphics commands and the values of all
 needed parameters on the command line.  The user can
 instead elect to run the program partially interactively,
-by specifying any/all of the parameters <EM>except</EM> the
-graphics <B>input=</B><EM>name</EM> parameter on the
-command line.  In this case, <EM>d.mapgraph</EM> will
-expect the user to input <EM>d.mapgraph</EM> graphics
+by specifying any/all of the parameters <em>except</em> the
+graphics <b>input=</b><em>name</em> parameter on the
+command line.  In this case, <em>d.mapgraph</em> will
+expect the user to input <em>d.mapgraph</em> graphics
 commands from standard input (i.e., the keyboard) and will
 (silently) prompt the user for these graphics commands.
-Alternately, the user can simply type <B>d.mapgraph</B> on
+Alternately, the user can simply type <b>d.mapgraph</b> on
 the command line, and be prompted for the values of all
 parameters (the user can still input graphics commands from
 an input file using this form.) In this case, the user is
 presented with the standard GRASS 
-<EM><A HREF="g.parser.html">g.parser</A></EM> interface.
+<em><a href="g.parser.html">g.parser</a></em> interface.
 
-<P>
-<EM>d.mapgraph</EM> is used for drawing simple graphics on
+<p>
+<em>d.mapgraph</em> is used for drawing simple graphics on
 top of map layers.  The coordinate system used by
-<EM>d.mapgraph</EM> is the same as that of the map layer
+<em>d.mapgraph</em> is the same as that of the map layer
 displayed in the active display frame on the graphics
 monitor (or that of the user's current region, if no map is
 displayed).
 
-<P>
+<p>
 The graphics language is simple and uses the following commands: 
 
 <DL>
 
-<DT><B>#</B> <EM>comment</EM> 
+<DT><b>#</b> <em>comment</em> 
 
 <DD>A line of comment which is ignored in the processing. 
 
-<DT><B>move</B> <EM>xpos ypos</EM> 
+<DT><b>move</b> <em>xpos ypos</em> 
 
-<DD>The current location is updated to <EM>xpos ypos</EM>
+<DD>The current location is updated to <em>xpos ypos</em>
 (where these, respectively, are the easting and northing of
 geographic coordinates stated in the map coordinate system
 of the user's current GRASS location, falling within the
@@ -67,97 +67,97 @@
 region, graphics drawn there will not appear in the
 graphics frame.
 
-<P>
+<p>
 
-Note: use <EM><A HREF="g.region.html">g.region</A></EM>
-to obtain the coordinates of current location.  Use <EM>
-<A HREF="d.where.html">d.where</A></EM> to obtain specific
+Note: use <em><a href="g.region.html">g.region</a></em>
+to obtain the coordinates of current location.  Use <em>
+<a href="d.where.html">d.where</a></em> to obtain specific
 map coordinates of various points on the raster map
 displayed in the active frame.
 
 <BR>
 
-Note: there must be a space between <EM>xpos</EM> and <EM>ypos</EM>.
+Note: there must be a space between <em>xpos</em> and <em>ypos</em>.
 
-<DT><B>draw</B> <EM>xpos ypos</EM> 
+<DT><b>draw</b> <em>xpos ypos</em> 
 
 <DD>A line is drawn in the current color from the current
-location to the new location <EM>xpos ypos</EM>, which then
-becomes the current location.  <EM>xpos</EM> and
-<EM>ypos</EM> are (respectively) an easting and northing
+location to the new location <em>xpos ypos</em>, which then
+becomes the current location.  <em>xpos</em> and
+<em>ypos</em> are (respectively) an easting and northing
 stated in the map coordinate system of the user's current
 GRASS location, and located within the user's current
 geographic region and active frame.
 
-<P>
+<p>
 
-Note: there must be a space between <EM>xpos</EM> and <EM>ypos</EM>.
+Note: there must be a space between <em>xpos</em> and <em>ypos</em>.
 
-<DT><B>color</B> <EM>color</EM> 
+<DT><b>color</b> <em>color</em> 
 
 <DD>Sets the current color to that stated. 
-Color options are: <EM>red</EM>, 
-<EM>orange</EM>, 
-<EM>yellow</EM>, 
-<EM>green</EM>, 
-<EM>blue</EM>, 
-<EM>indigo</EM>, 
-<EM>violet</EM>,
-<EM>magenta,</EM> 
-<EM>brown</EM>, 
-<EM>gray</EM>,
-<EM>white</EM>, 
-<EM>black</EM>,
+Color options are: <em>red</em>, 
+<em>orange</em>, 
+<em>yellow</em>, 
+<em>green</em>, 
+<em>blue</em>, 
+<em>indigo</em>, 
+<em>violet</em>,
+<em>magenta,</em> 
+<em>brown</em>, 
+<em>gray</em>,
+<em>white</em>, 
+<em>black</em>,
 an R:G:B triplet (separated by colons),
 or the word "none" (draws in the default background color).
 
-<DT><B>size</B> <EM>xper yper</EM>
+<DT><b>size</b> <em>xper yper</em>
 
 <DD>Subsequent text will be drawn such that the text is
-<EM>xper</EM> percent of the display frame's width and
-<EM>yper</EM> percent of the display frame height.  If not
+<em>xper</em> percent of the display frame's width and
+<em>yper</em> percent of the display frame height.  If not
 specified by the user, the text size becomes 5 percent of
 the active frame's width and 5 percent of the frame's
-height.  This is equivalent to entering <B>size 5 5</B>.
+height.  This is equivalent to entering <b>size 5 5</b>.
 
-<DT><B>text</B> <EM>line-of-text</EM> 
+<DT><b>text</b> <em>line-of-text</em> 
 
 <DD>The stated text is drawn at the current location using
 the current color and the current size.
 
-<DT><B>icon</B> <EM>type size x y</EM> 
+<DT><b>icon</b> <em>type size x y</em> 
 
 <DD>Draws an icon of types o, x, or + with specified size
 at location x,y.  Note: type o designates a square.
 
-<DT><B>polygon</B> <BR>
-<EM> xpos ypos</EM> <BR>
-<EM> xpos ypos</EM> <BR>
+<DT><b>polygon</b> <BR>
+<em> xpos ypos</em> <BR>
+<em> xpos ypos</em> <BR>
 . <BR>
 . <BR>
 . <BR>
 
 <DD>The map coordinates appearing on lines beneath the word
-<EM>polygon</EM>, one pair per line, circumscribe a
+<em>polygon</em>, one pair per line, circumscribe a
 polygon which is to be filled with the current color.
 
 </DL>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-<EM>d.mapgraph</EM> is identical to the 
-<EM><A HREF="d.graph.html">d.graph</A></EM> command, except for the 
+<em>d.mapgraph</em> is identical to the 
+<em><a href="d.graph.html">d.graph</a></em> command, except for the 
 difference in coordinate systems used. In the future functionality will
 be merged into <em>d.graph</em> and <em>d.mapgraph</em> will be removed.
 
-<P>
+<p>
 
-<EM>d.mapgraph</EM> will complain if the user enters
+<em>d.mapgraph</em> will complain if the user enters
 something to standard input that it does not understand.
 Blank lines in the input file will result in this error
 message.
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Draw some text in the center of the display:
 <pre>
@@ -170,15 +170,15 @@
    EOF
 </pre>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.frame.html">d.frame</A></EM><BR>
-<EM><A HREF="d.graph.html">d.graph</A></EM><BR>
-<EM><A HREF="d.rast.html">d.rast</A></EM><BR>
-<EM><A HREF="d.zoom.html">d.zoom</A></EM><BR>
-<EM><A HREF="g.region.html">g.region</A></EM>
+<em><a href="d.frame.html">d.frame</a></em><BR>
+<em><a href="d.graph.html">d.graph</a></em><BR>
+<em><a href="d.rast.html">d.rast</a></em><BR>
+<em><a href="d.zoom.html">d.zoom</a></em><BR>
+<em><a href="g.region.html">g.region</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 James Westervelt, 
 U.S. Army Construction Engineering 

Modified: grass/branches/develbranch_6/display/d.measure/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.measure/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.measure/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.measure</EM> provides the user with an interactive
+<em>d.measure</em> provides the user with an interactive
 way to measure the lengths and areas of lines and polygons
 drawn by the user in the active frame on the graphics
 monitor.  Lines and polygons are drawn using a pointing
@@ -8,50 +8,50 @@
 <b>c1</b> and <b>c2</b>.  A mouse button menu indicates
 that the user can find out the geographic coordinates of
 the cursor location, draw line segments between
-user-specified vertices, and quit <EM>d.measure</EM>. Lines
+user-specified vertices, and quit <em>d.measure</em>. Lines
 and polygons are defined by the series of vertices marked
 by the user. If more than two successive vertices are
-drawn, <EM>d.measure</EM> prints the area encompassed
-(<EM>d.measure</EM> will assume the area is closed even if
+drawn, <em>d.measure</em> prints the area encompassed
+(<em>d.measure</em> will assume the area is closed even if
 the user has not joined the first and last vertices).
 <!-- (not [currently] true!)  Line lengths are stated in the same units
 as those of the current LOCATION. In a XY-LOCATION, where no units are
-available, <EM>d.measure</EM> prints a warning and gives results without
+available, <em>d.measure</em> prints a warning and gives results without
 units. -->
 Areas can be stated in hectares, square miles, square meters and
 square kilometers.
 
-Lines and polygons drawn using <EM>d.measure</EM> will
+Lines and polygons drawn using <em>d.measure</em> will
 overlay (not overwrite) whatever display currently appears
 in the active frame on the graphics monitor.  The user can,
 for example, run 
-<EM><A HREF="d.rast.html">d.rast</A></EM> or 
-<EM><A HREF="d.vect.html">d.vect</A></EM> prior to running
-<EM>d.measure</EM>, and use raster and/or vector maps as a backdrop.
+<em><a href="d.rast.html">d.rast</a></em> or 
+<em><a href="d.vect.html">d.vect</a></em> prior to running
+<em>d.measure</em>, and use raster and/or vector maps as a backdrop.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-<EM>d.measure</EM> uses all segments drawn by the user when computing area. 
+<em>d.measure</em> uses all segments drawn by the user when computing area. 
 If the user draws an area within another area, the combined 
 area of both regions will be output. 
 
-<H2>TODO</H2>
+<h2>TODO</h2>
 
 Output lengths in the same units as those of the current LOCATION as
-found in the <tt>PROJ_UNITS</tt> file (see <EM>g.proj</EM>).
+found in the <tt>PROJ_UNITS</tt> file (see <em>g.proj</em>).
 Volunteers are welcome for this task.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.frame.html">d.frame</A></EM><br>
-<EM><A HREF="d.graph.html">d.graph</A></EM><br>
-<EM><A HREF="d.rast.html">d.rast</A></EM><br>
-<EM><A HREF="d.vect.html">d.vect</A></EM><br>
-<EM><A HREF="d.where.html">d.where</A></EM><br>
-<EM><A HREF="g.proj.html">g.proj</A></EM>
+<em><a href="d.frame.html">d.frame</a></em><br>
+<em><a href="d.graph.html">d.graph</a></em><br>
+<em><a href="d.rast.html">d.rast</a></em><br>
+<em><a href="d.vect.html">d.vect</a></em><br>
+<em><a href="d.where.html">d.where</a></em><br>
+<em><a href="g.proj.html">g.proj</a></em>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 James Westervelt, 
 <BR>

Modified: grass/branches/develbranch_6/display/d.menu/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.menu/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.menu/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.menu</EM> allows the user to create a menu containing
+<em>d.menu</em> allows the user to create a menu containing
 a TITLE and options, and to display this menu in the active
 frame on the graphics monitor.  After the menu is displayed
 in the active frame, the mouse must be used to select one of the menu
@@ -9,15 +9,15 @@
 exits.  This program provides
 GRASS macro writers with a mouse interface for user interaction.
 
-<P>
+<p>
 Parameters can be stated on the command line, from within standard input
 (<tt>stdin</tt>), or from within a script file
-(as illustrated <A HREF="#example">below</A>).
+(as illustrated <a href="#example">below</a>).
 
-<P>
+<p>
 The user can specify the menu's background, text, and line
-colors (<B>bcolor</B>, <B>tcolor</B>, and
-<B>dcolor</B>) and the menu size (<B>size</B>) on
+colors (<b>bcolor</b>, <b>tcolor</b>, and
+<b>dcolor</b>) and the menu size (<b>size</b>) on
 the command line. If the user sets at least one of these
 values on the command line, any remaining values that are
 not specified will be set (automatically) to their default values.
@@ -33,66 +33,66 @@
 by default if the user does not position it elsewhere using
 the <tt>.T</tt> or <tt>.L</tt> commands.
 
-<P>
+<p>
 The user specifies the menu contents by entering a menu
 TITLE followed by the option choices to appear in the menu
-when displayed.  The user <EM>must</EM> enter a menu TITLE
+when displayed.  The user <em>must</em> enter a menu TITLE
 and at least one menu option.
 All <tt>.dot</tt> commands are optional.
 
 <DL>
 <DT>
-<B>#</B>
+<b>#</b>
 <DD>
 Comment line. (ignored)
 
 <DT>
-<B>.B</B> <EM>value</EM> 
+<b>.B</b> <em>value</em> 
 <DD>
 Specifies the menu's background color.
 
 <DT>
-<B>.C</B> <EM>value</EM> 
+<b>.C</b> <em>value</em> 
 <DD>
 Specifies the menu's text color. 
 
 <DT>
-<B>.D</B> <EM>value</EM> 
+<b>.D</b> <em>value</em> 
 <DD>
 Specifies the menu's dividing line color.
 
 <DT>
-<B>.F</B> <EM>value</EM> 
+<b>.F</b> <em>value</em> 
 <DD>
 Specifies the menu's font. May be any of the standard GRASS fonts.
-(see <EM><A HREF="d.font.html">d.font</A></EM>)
+(see <em><a href="d.font.html">d.font</a></em>)
 
 <DT>
-<B>.S</B> <EM>value</EM> 
+<b>.S</b> <em>value</em> 
 <DD>
 Specifies the menu's font size.
 (as a percentage of the active frame's height). 
 
 <DT>
-<B>.T</B> <EM>value</EM> 
+<b>.T</b> <em>value</em> 
 <DD>
 Specifies the menu's distance from the active display frame's top edge 
 (as a percentage of the active frame's height). 
 
 <DT>
-<B>.L</B> <EM>value</EM> 
+<b>.L</b> <em>value</em> 
 <DD>
 Specifies the menu's distance from the active display frame's left edge 
 (as a percentage of the active frame's width). 
 
 <DT>
-<EM>menu TITLE</EM> 
+<em>menu TITLE</em> 
 <DD>
 A TITLE that describes the type of options listed in the menu, 
 and that will appear at the top of the menu when it is displayed. 
 
 <DT>
-<EM>option name</EM>(s) 
+<em>option name</em>(s) 
 <DD>
 The options that will appear in the menu when displayed. 
 Each menu option should appear on a separate line. 
@@ -104,19 +104,19 @@
 Note: The user should choose a menu size and location that will allow 
 all menu options to be displayed in the active frame. 
 
-<P>
+<p>
 
 If the user enters the menu TITLE and option(s) from
 standard input (i.e., at the keyboard rather than from a
-file), the user should enter <EM>control-d</EM> to end
+file), the user should enter <em>control-d</em> to end
 input and display the menu in the active frame on the
-graphics monitor.  (Note: The <EM>d.menu</EM> program can
+graphics monitor.  (Note: The <em>d.menu</em> program can
 also be incorporated into UNIX Bourne shell script macros.
 The below example shows how this might be done.)
 
 <A NAME="example"></a>
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 <h3>Example 1</h3>
 
@@ -150,14 +150,14 @@
 
 <h3>Example 2</h3>
 
-In the following example, the shell script <EM>menu2</EM>
-calls the shell script <EM>color.select</EM> which contains
-<EM>d.menu</EM> commands to display a menu in the current
+In the following example, the shell script <em>menu2</em>
+calls the shell script <em>color.select</em> which contains
+<em>d.menu</em> commands to display a menu in the current
 frame on the graphics monitor.  After the user selects an
 option from the display menu, the selection number is
-available for use by <EM>menu2</EM>.
+available for use by <em>menu2</em>.
 
-<H4>Contents of file <EM>menu2</EM>:</H4> 
+<H4>Contents of file <em>menu2</em>:</H4> 
 
 <div class="code"><PRE>
 #! /bin/csh -f
@@ -173,7 +173,7 @@
 exit
 </PRE></div>
 
-<H4>Contents of file <EM>color.select</EM>:</H4> 
+<H4>Contents of file <em>color.select</em>:</H4> 
 
 <div class="code"><PRE>
 #! /bin/csh -f
@@ -189,27 +189,27 @@
 EOF
 </PRE></div>
 
-<P>
+<p>
 
-If the user runs <EM>menu2</EM>, a menu will be displayed
+If the user runs <em>menu2</em>, a menu will be displayed
 on the graphics monitor that has red background, green
 text, with menu options divided by yellow lines, and a text
 size of 5% of the active display frame height.  The mouse
 cursor will become active, allowing the user to select (by
 pointing with the mouse) one of the displayed menu
 options.  Here, these menu options are called
-<EM>Option 1</EM>, <EM>Option 2</EM>, and
-<EM>Option 3</EM>, etc.  The first line of text (here,
-the words <EM>Color Choices</EM>) contains the TITLE of
-the menu; this line is <B>not</B> a menu option that can be
+<em>Option 1</em>, <em>Option 2</em>, and
+<em>Option 3</em>, etc.  The first line of text (here,
+the words <em>Color Choices</em>) contains the TITLE of
+the menu; this line is <b>not</b> a menu option that can be
 chosen by the user with the mouse. When the user presses
 one of the mouse buttons while pointing to the desired menu
 choice, the number of the option chosen will be available
-for capture by the shell script <EM>menu2</EM>.
-<EM>menu2</EM> is a simple example that takes this
+for capture by the shell script <em>menu2</em>.
+<em>menu2</em> is a simple example that takes this
 information and only echoes it to the screen.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Although the user can vary text size, all text within the
 same menu is displayed in a single text size (and font). If
@@ -217,19 +217,19 @@
 be displayed in different sizes, all text will be displayed
 in the size stated last.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.ask.html">d.ask</A></EM><br>
-<EM><A HREF="d.font.html">d.font</A></EM><br>
-<EM><A HREF="d.frame.html">d.frame</A></EM><br>
-<EM><A HREF="d.grid.html">d.grid</A></EM><br>
-<EM><A HREF="d.legend.html">d.legend</A></EM><br>
-<EM><A HREF="d.labels.html">d.paint.labels</A></EM><br>
-<EM><A HREF="d.text.html">d.text</A></EM><br>
-<EM><A HREF="d.title.html">d.title</A></EM><br>
+<em><a href="d.ask.html">d.ask</a></em><br>
+<em><a href="d.font.html">d.font</a></em><br>
+<em><a href="d.frame.html">d.frame</a></em><br>
+<em><a href="d.grid.html">d.grid</a></em><br>
+<em><a href="d.legend.html">d.legend</a></em><br>
+<em><a href="d.labels.html">d.paint.labels</a></em><br>
+<em><a href="d.text.html">d.text</a></em><br>
+<em><a href="d.title.html">d.title</a></em><br>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 James Westervelt,
  U.S. Army Construction Engineering 

Modified: grass/branches/develbranch_6/display/d.nviz/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.nviz/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.nviz/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,86 +1,86 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-The <EM>d.nviz</EM> program allows the user to easily create a script
+The <em>d.nviz</em> program allows the user to easily create a script
 that can be run in NVIZ to fly through a terrain.
 
 The NVIZ flight path can be chosen interactively from the GRASS
-monitor (<EM>-i</EM>) or supplied on the command line as comma
+monitor (<em>-i</em>) or supplied on the command line as comma
 separated coordinates. The program optionally allows a KeyFrame
 file to created (after running the script). This KeyFrame file can
-be loaded into the <EM>Keyframe Animation</EM> panel for fine
+be loaded into the <em>Keyframe Animation</em> panel for fine
 tuning or editing.
 
 <p>
-The script generated by <EM>d.nviz</EM> can be run from the NVIZ
+The script generated by <em>d.nviz</em> can be run from the NVIZ
 command line (nviz script=script_name) or after NVIZ is started by
-selecting <EM>Scripting->Play Script</EM>.
+selecting <em>Scripting->Play Script</em>.
 
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 <H3>Flags:</H3>
 <DL>
-<DT><B>-i</B>
+<DT><b>-i</b>
 <DD>Intercative mode
 <DD>The user selects the camera path from the GRASS monitor by
 	clicking the left mouse button along the route. Click the
 	right mouse button to finish.
-<DT><B>-f</B>
+<DT><b>-f</b>
 <DD>Full render
 <DD>The script will draw all loaded NVIZ data and save scene to PPM image.
-<DT><B>-c</B>
+<DT><b>-c</b>
 <DD>Flay at constant elevation
 <DD>With this flag the camera will be set to an elevation given by the
-	<EM>ht=</EM> parameter. The default is to fly at <EM>ht=</EM>
+	<em>ht=</em> parameter. The default is to fly at <em>ht=</em>
 	above the topography (i.e. camera height = elevation + ht)
-<DT><B>-k</B>
+<DT><b>-k</b>
 <DD>Output KeyFrame file
 <DD>Generate a KeyFrame file that can be loaded from the NVIZ
-	<EM>Keyframe Animation</EM> panel. The KeyFrame file is
+	<em>Keyframe Animation</em> panel. The KeyFrame file is
 	automatically assigned the script name with a
-	<EM>.kanimator</EM> extension.
-<DT><B>-o</B>
+	<em>.kanimator</em> extension.
+<DT><b>-o</b>
 <DD>Render the animation in an off-screen context
-<DT><B>-e</B>
+<DT><b>-e</b>
 <DD>Enable vector and sites drawing
 </DL>
 
 
 <H3>Parameters:</H3>
 <DL>
-<DT><B>input</B>
+<DT><b>input</b>
 <DD>The name of the GRASS raster map with elevation data. 
 <DD>This should be the same file that will be loaded in NVIZ.
 
-<DT><B>output</B>
+<DT><b>output</b>
 <DD>The name of the NVIZ script to create.
 
-<DT><B>name</B>
-<DD>The prefix for output images if running in full render mode (<EM>-f</EM>).
+<DT><b>name</b>
+<DD>The prefix for output images if running in full render mode (<em>-f</em>).
 <DD>The defulat preifix is NVIZ (eg. NVIZ0000.ppm).
 
-<DT><B>dist</B>
+<DT><b>dist</b>
 <DD>The distance of the camera behind the center of view.
 
-<DT><B>ht</B>
+<DT><b>ht</b>
 <DD>The height of the camera above the center of view.
-<DD>If the the <EM>-c</EM> flag is set, the height represents the actual camera height.
+<DD>If the the <em>-c</em> flag is set, the height represents the actual camera height.
 
-<DT><B>frames</B>
+<DT><b>frames</b>
 <DD>The number of frames in the animation.
 
-<DT><B>start</B>
+<DT><b>start</b>
 <DD>The starting frame number (default = 0).
 <DD> This option may be useful in full render mode when creating an
 animation in sections. For example the user may wish to start at frame
 number 2000.
 
-<DT><B>route</B>
+<DT><b>route</b>
 <DD>The comma separated geographic coordinates for keyframe locations.
-<DD>The interactive flag (<EM>-i</EM>) overrides this option.
+<DD>The interactive flag (<em>-i</em>) overrides this option.
 
 </DL>
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 To interactively create an NVIZ animation from raster elev.rast with
 500 frames and the camera set to 50 meters above and 250 meters behind
 the scene, run the following:
@@ -96,11 +96,11 @@
 nviz elevation=elevation.dem script=nviz.script.nvscr
 </pre></div>
 
-<H2>NOTES / HINTS</H2>
+<h2>NOTES / HINTS</h2>
 The user must select at least four key-frame locations (points)
  otherwise an error is generated.
 <p>
-If the GRASS region is changed the <EM>d.nviz</EM> command must be re-run.
+If the GRASS region is changed the <em>d.nviz</em> command must be re-run.
 <p>
 The current GRASS region and the user supplied parameters are included
 as a comment at the top of the output script. This information can be
@@ -111,7 +111,7 @@
 the current window, in which case a non-fatal error is generated
 (Error: selected point is outside region).  This error can result in
 jerky movements during the animation.  To correct this problem reduce
-the <EM>dist=</EM> parameter or increase the current region.
+the <em>dist=</em> parameter or increase the current region.
 
 <h3>Loading the script into NVIZ</h3>
 
@@ -136,11 +136,11 @@
 kanimator script. Once loaded, the key frames will appear in the GUI
 and can then be edited there.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="nviz.html">nviz</A></EM>
+<em><a href="nviz.html">nviz</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
-<A HREF="mailto:bcovill at tekmap.ns.ca">Bob Covill</A>
+<a href="mailto:bcovill at tekmap.ns.ca">Bob Covill</a>
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/display/d.paint.labels/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.paint.labels/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.paint.labels/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,41 +1,41 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.labels</EM> displays a <EM>paint</EM> label file in the 
+<em>d.labels</em> displays a <em>paint</em> label file in the 
 active display frame on the graphics monitor. Each label has components 
 which determine the text, the location of the text on the image, its 
 size, and the background for the text. This file can be generated with 
-the <EM><A HREF="v.label.html">v.label</A></EM> program or simply created 
+the <em><a href="v.label.html">v.label</a></em> program or simply created 
 by the user as an ASCII file (using a text editor) and placed in the 
 appropriate directory under the user's current mapset and location 
 (i.e. <tt>$MAPSET/paint/labels/</tt>).
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Some of the information stored in the label file is unused by 
-<EM>d.labels</EM>.
+<em>d.labels</em>.
 <!-- The unused information found in a label file is printed to standard 
 output. -->
 This extra information is used by such programs as 
-<EM><A HREF="ps.map.html">ps.map</A></EM>.
+<em><a href="ps.map.html">ps.map</a></em>.
 
-<P>
+<p>
 This module was formerly known as <em>d.paint.labels</em>.
 The the old version of <em>d.labels</em> from GRASS 5, which provided
 interactive placement and modification of paint labels, still needs to 
 have its functionality merged into this module.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.font.html">d.font</A></EM><br>
-<EM><A HREF="d.text.html">d.text</A></EM><br>
-<EM><A HREF="d.font.freetype.html">d.font.freetype</A></EM><br>
-<EM><A HREF="d.text.freetype.html">d.text.freetype</A></EM><br>
-<EM><A HREF="d.title.html">d.title</A></EM><br>
-<EM><A HREF="ps.map.html">ps.map</A></EM><br>
-<EM><A HREF="v.label.html">v.label</A></EM>
+<em><a href="d.font.html">d.font</a></em><br>
+<em><a href="d.text.html">d.text</a></em><br>
+<em><a href="d.font.freetype.html">d.font.freetype</a></em><br>
+<em><a href="d.text.freetype.html">d.text.freetype</a></em><br>
+<em><a href="d.title.html">d.title</a></em><br>
+<em><a href="ps.map.html">ps.map</a></em><br>
+<em><a href="v.label.html">v.label</a></em>
 <BR>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 James Westervelt, 
 U.S. Army Construction Engineering 

Modified: grass/branches/develbranch_6/display/d.path/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.path/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.path/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -13,7 +13,7 @@
 if the <b>coor</b> option is used they can be specified non-interactively.
 The actions bound to the mouse buttons are described in the terminal
 window when running the command.
-<P>
+<p>
 To calculate shortest path non-interactively and save the path to a new vector
 map, use the <em>v.net.path</em> module.
 
@@ -35,7 +35,7 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.net.path.html">v.net.path</a>
+<a href="v.net.path.html">v.net.path</a>
 </em>
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/display/d.profile/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.profile/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.profile/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 This command works only interactively. It clears the entire
 graphics screen and provides a graphical interaction
@@ -6,7 +6,7 @@
 then generated. Input parameters can be specified on the command line
 for quicker start-up.
 
-<H2>USER PROMPTS</H2>
+<h2>USER PROMPTS</h2>
 
 First, you will be presented with a prompt asking you to
 choose a raster map layer to be profiled. Then you will be 
@@ -17,7 +17,7 @@
 be prompted for the name prefix for output file(s) containing the profile
 data. This is an optional feature.
 
-<P>
+<p>
 
 After parameters are given, the raster layer will be
 displayed in the left half of the graphics monitor, and the
@@ -26,7 +26,7 @@
 monitor: a mouse-button menu frame on the left, and a
 status frame on the right.
 
-<P>
+<p>
 
 The mouse-button menu initially offers you three options: 
 
@@ -73,15 +73,15 @@
 click on the middle mouse-button. If you would like to
 quit, then click on the right button.
 
-<P>
+<p>
 
-If you selected the <B>plotfile</B> option, you will have up to
-four files starting with the <EM>name</EM> and followed by a suffix
-of the plot letter <EM>A, B, C,</EM> or <EM>D</EM>.  The plots that
+If you selected the <b>plotfile</b> option, you will have up to
+four files starting with the <em>name</em> and followed by a suffix
+of the plot letter <em>A, B, C,</em> or <em>D</em>.  The plots that
 are written to these files reflect the last of each plot done with that
 letter (i.e. They will match what's in the display when you quit).
 
-<P>
+<p>
 The format of the plot files is not geared toward any particular software,
 but should be easy to coax into a number of other programs.  The first 
 three lines contain some header information about the plot, each prefixed
@@ -105,7 +105,7 @@
 ...
 </pre></div>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 You might notice the first two 'dist' values in the profile output above are
 both zero.  This is due to the fact the cell resolution for this file is
@@ -120,17 +120,17 @@
 always be less than the distance between the center and any corner (not
 edge!) of the cell at the resolution of the profiled raster.
 
-<P>
+<p>
 
 Only four output plotfiles can be made.  Each time a new profile is run, the
-plotfile is immediately written to the file <EM>name</EM>.<EM>letter</EM>.
+plotfile is immediately written to the file <em>name</em>.<em>letter</em>.
 One can take advantage of this fact to create an unlimited number of
 plotfiles simply by renaming the output files before running more profiles. 
 This may not always be the case, but it is at the time of this writing.
 
-<P>
+<p>
 
-Useful enhancements to <EM>d.profile</EM> would include: 
+Useful enhancements to <em>d.profile</em> would include: 
 
 <UL>
 
@@ -150,44 +150,44 @@
 
 <H3>Perl Script to convert output to a site_list</H3>
 
-The script below will convert the <B>plotfile</B> output to the site_list format.
+The script below will convert the <b>plotfile</b> output to the site_list format.
 It probably won't work 100% for lat/lon datasets.
 
-<P>
+<p>
 
 <TT>
-<B>#! /usr/bin/perl -w</B><BR>
+<b>#! /usr/bin/perl -w</b><BR>
 # prof2sites.pl: converts the output of d.profile to a site_list
 <BR><BR>
-<B>my</B> (<EM>$dist</EM>, <EM>$elev</EM>, <EM>$east</EM>, <EM>$north</EM>);
+<b>my</b> (<em>$dist</em>, <em>$elev</em>, <em>$east</em>, <em>$north</em>);
 <BR><BR>
-<B>while</B> (&lt;<B>STDIN</B>&gt;)<BR>
+<b>while</b> (&lt;<b>STDIN</b>&gt;)<BR>
 {<BR>
-&nbsp;&nbsp;<B>if</B> (m/^#/)<BR>
+&nbsp;&nbsp;<b>if</b> (m/^#/)<BR>
 &nbsp;&nbsp;{<BR>
-&nbsp;&nbsp;&nbsp;&nbsp;<B>print</B> "<EM>$_</EM>";<BR>
+&nbsp;&nbsp;&nbsp;&nbsp;<b>print</b> "<em>$_</em>";<BR>
 &nbsp;&nbsp;}<BR>
-&nbsp;&nbsp;<B>else</B><BR>
+&nbsp;&nbsp;<b>else</b><BR>
 &nbsp;&nbsp;{<BR>
-&nbsp;&nbsp;&nbsp;&nbsp;<B>chomp</B>;<BR>
-&nbsp;&nbsp;&nbsp;&nbsp;(<EM>$dist</EM>, <EM>$elev</EM>, <EM>$east</EM>, <EM>$north</EM>) = <B>split</B> / /;<BR>
-&nbsp;&nbsp;&nbsp;&nbsp;<B>print</B> "<EM>$east</EM>|<EM>$north</EM>|<EM>$elev</EM>|#1 \%<EM>$dist</EM> \@Profile\n";<BR>
+&nbsp;&nbsp;&nbsp;&nbsp;<b>chomp</b>;<BR>
+&nbsp;&nbsp;&nbsp;&nbsp;(<em>$dist</em>, <em>$elev</em>, <em>$east</em>, <em>$north</em>) = <b>split</b> / /;<BR>
+&nbsp;&nbsp;&nbsp;&nbsp;<b>print</b> "<em>$east</em>|<em>$north</em>|<em>$elev</em>|#1 \%<em>$dist</em> \@Profile\n";<BR>
 &nbsp;&nbsp;}<BR>
 }<BR>
 </TT>
 
-<H2>BUGS</H2>
+<h2>BUGS</h2>
 
 None known.
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Dave Johnson
 <BR> DBA Systems, Inc. <BR>
 10560 Arrowhead Drive <BR>
 Fairfax, Virginia 22030
 
-<P>
+<p>
 Modified by Eric G. Miller for profile output, support of 
 floating point rasters, and optional display raster (02-Dec-2000).
 

Modified: grass/branches/develbranch_6/display/d.rast/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.rast/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.rast/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -9,9 +9,9 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.erase.html">d.erase</a></em><br>
-<em><a HREF="d.vect.html">d.vect</a></em><br>
-<em><a HREF="d.what.rast.html">d.what.rast</a></em><br>
+<em><a href="d.erase.html">d.erase</a></em><br>
+<em><a href="d.vect.html">d.vect</a></em><br>
+<em><a href="d.what.rast.html">d.what.rast</a></em><br>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/display/d.rast.arrow/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.rast.arrow/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.rast.arrow/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,20 +1,20 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.rast.arrow</EM>
+<em>d.rast.arrow</em>
 is designed to help users better visualize surface water flow direction,
 as indicated in an aspect raster map layer.  There are two ways to specify
 the aspect layer the program is to use.  The first is to display the aspect
-map layer on the graphics monitor before running <EM>d.rast.arrow</EM>.
-The second method involves setting the <EM>map</EM> parameter
+map layer on the graphics monitor before running <em>d.rast.arrow</em>.
+The second method involves setting the <em>map</em> parameter
 to the name of the desired aspect map.
 This allows the arrows to be drawn over any other maps already displayed
 on the graphics monitor.
-<P>
+<p>
 
-<EM>d.rast.arrow</EM> will draw an arrow over each displayed cell
+<em>d.rast.arrow</em> will draw an arrow over each displayed cell
 to indicate in which direction the cell slopes. If the aspect
 layer has a category value denoting locations of "unknown" aspect,
-<EM>d.rast.arrow</EM> draws a question mark over the displayed cells
+<em>d.rast.arrow</em> draws a question mark over the displayed cells
 of that category.
 Cells containing null data will be marked with an "X".
 <p>
@@ -29,19 +29,19 @@
 so on). 
 
 <p>
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 By default, arrows are drawn at the size of a cell and cannot be seen if 
 the raster map is relatively close in scale. You can use the <em>skip</em> 
 option to draw arrows every n-th cell in both directions if you are working 
 with relatively high resolutions. It may be useful to disable the grid in
 this case, which is accomplished by setting its color to "<tt>none</tt>".
-<P>
+<p>
 For GRASS and Compass type aspect maps, the cell values of the aspect map
 will determine the corresponding direction in 360 degrees. ANSWERS type
 aspect maps will be plotted in multiples of 15 degrees, and AGNPS type
 aspect maps will be displayed in D8 representation, i.e. the eight multiples 
 of 45 degrees.
-<P>
+<p>
 GRASS aspect maps are measured using Cartesian conventions, i.e. in degrees 
 counterclockwise from east. e.g.:
 
@@ -52,16 +52,16 @@
 0,360 East
 </pre></div>
 
-<P>
+<p>
 They can be created from a raster elevation map with <em>r.slope.aspect</em>.
-<P>
+<p>
 Compass type aspect maps are measured in degrees clockwise from north.
-<P>
+<p>
 This module uses oceanographic conventions, i.e. arrows point downslope or 
 direction "to", as opposed to atmospheric conventions (direction "from").
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Convert U,V velocity component maps into magnitide,direction maps for use 
 with <em>d.rast.arrow</em>:
@@ -72,17 +72,17 @@
 d.rast.arrow map=direction type=grass magnitude_map=magnitude skip=3 grid=none
 </pre></div>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.frame.html">d.frame</A></EM><BR>
-<EM><A HREF="d.rast.html">d.rast</A></EM><BR>
-<EM><A HREF="d.rast.edit.html">d.rast.edit</A></EM><BR>
-<EM><A HREF="d.rast.num.html">d.rast.num</A></EM><BR>
-<EM><A HREF="g.region.html">g.region</A></EM><BR>
-<EM><A HREF="r.slope.aspect.html">r.slope.aspect</A></EM><BR>
+<em><a href="d.frame.html">d.frame</a></em><BR>
+<em><a href="d.rast.html">d.rast</a></em><BR>
+<em><a href="d.rast.edit.html">d.rast.edit</a></em><BR>
+<em><a href="d.rast.num.html">d.rast.num</a></em><BR>
+<em><a href="g.region.html">g.region</a></em><BR>
+<em><a href="r.slope.aspect.html">r.slope.aspect</a></em><BR>
 <BR>
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 <u>Original author</u><BR>
 Chris Rewerts<BR>

Modified: grass/branches/develbranch_6/display/d.rast.edit/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.rast.edit/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.rast.edit/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-The <EM>d.rast.edit</EM> program allows users to interactively
+The <em>d.rast.edit</em> program allows users to interactively
 edit cell category values in a raster map layer displayed to the
 graphics monitor using a mouse cursor.
 This program determines the name of the raster map layer
@@ -8,11 +8,11 @@
 (if none, program will abort).
 The user is then prompted for the name of a new raster layer
 to be created in his mapset.
-<EM>d.rast.edit</EM> does not modify the user's original raster map layer.
+<em>d.rast.edit</em> does not modify the user's original raster map layer.
 
-<H2>Geographic Region Concerns</H2>
+<h2>Geographic Region Concerns</h2>
 
-<EM>d.rast.edit</EM> reads the region definition for the raster map layer
+<em>d.rast.edit</em> reads the region definition for the raster map layer
 being edited from its cell header file.
 The new, edited copy of the raster layer will be created with the
 same resolution and region dimensions.  If the current region resolution
@@ -25,20 +25,20 @@
 on the graphics monitor to be pointed at with the mouse cursor.
 Any mask in place will be ignored when writing the new raster map layer.
 
-<H2>Mouse Menus</H2>
+<h2>Mouse Menus</h2>
 
 Cell editing is done using a mouse cursor to choose menu selections
 and indicate areas on the displayed raster map that are to be edited.
 
-<P>
-Selections available via the <EM>Main Menu</EM> and the
+<p>
+Selections available via the <em>Main Menu</em> and the
 subsequent functions or sub-menus are described below:
 <DL>
 <DD>
 1. Edit
 <BR>
 
-<B>invokes edit mode</B>, during which no graphic menus are used,
+<b>invokes edit mode</b>, during which no graphic menus are used,
 so that none of the displayed map is hidden. 
 At the start of the edit mode, a grid is drawn over displayed
 cells to help distinguish cell boundaries.  
@@ -48,13 +48,13 @@
 <DL>
 <DD> Left Button
 <BR>
-<B>what's here</B>.  Identify the category value of the
+<b>what's here</b>.  Identify the category value of the
 cell under the mouse cursor when the button is pressed.
 The category value of this cell is printed in the text frame.
-<P>
+<p>
 <DD> Middle Button
 <BR>
-<B>edit</B>.  The current category value of the cell under the mouse
+<b>edit</b>.  The current category value of the cell under the mouse
 cursor is iterated and a prompt for a new cell value
 appears on the textual command frame.  (Remember to
 move the mouse to the text frame).  Enter a new cell category
@@ -65,138 +65,138 @@
 it has been edited, since, if the value of the cell
 is polled (before leaving edit mode), the old category value
 will be reported.
-<P>
+<p>
 <DD> Right Button
 <BR>
-<B>exit edit mode</B>.  Command is returned to the <EM>Main Menu</EM>
+<b>exit edit mode</b>.  Command is returned to the <em>Main Menu</em>
 on the graphics monitor.  If cell value changes were made
 during edit mode, they will be saved upon exit.
 </DL>
 
-<P>
+<p>
 2. Redraw
 <BR>
-<B>redisplays</B> the raster map layer on the graphics monitor.
-<P>
+<b>redisplays</b> the raster map layer on the graphics monitor.
+<p>
 3. Zoom
 
 <BR>
-calls the <EM><A HREF="d.zoom.html">d.zoom</A>
-</EM> program, to allow changing the view of the
+calls the <em><a href="d.zoom.html">d.zoom</a>
+</em> program, to allow changing the view of the
 raster layer.
-<B>Zoom's</B> instructions will appear on the text command window.
+<b>Zoom's</b> instructions will appear on the text command window.
 Interaction is conducted using mouse keys.
 
-<P>
+<p>
 4. Arrow
 <BR>
 This function is available for users editing aspect maps.  The
-<EM><A HREF="d.rast.arrow.html">d.rast.arrow</A></EM> program is called, which draws arrows over the displayed
+<em><a href="d.rast.arrow.html">d.rast.arrow</a></em> program is called, which draws arrows over the displayed
 cells to indicate the downslope direction of the cell.
-After selecting the <EM>arrow</EM> selection from the main menu, sub-menus
-will appear, allowing input options to be set for the <EM>
-<A HREF="d.rast.arrow.html">d.rast.arrow</A></EM>
+After selecting the <em>arrow</em> selection from the main menu, sub-menus
+will appear, allowing input options to be set for the <em>
+<a href="d.rast.arrow.html">d.rast.arrow</a></em>
 program.  The first sub-menu selects the type of aspect data displayed.
-(regular "GRASS" format, as produced by <EM>
-<A HREF="r.slope.aspect.html">r.slope.aspect</A>
-</EM>;
+(regular "GRASS" format, as produced by <em>
+<a href="r.slope.aspect.html">r.slope.aspect</a>
+</em>;
 a format prepared as input to the "AGNPS" program; and a format prepared
-for the "ANSWERS" program. The <EM>
-<A HREF="d.rast.arrow.html">d.rast.arrow</A></EM> program can accept the
+for the "ANSWERS" program. The <em>
+<a href="d.rast.arrow.html">d.rast.arrow</a></em> program can accept the
 name of a layer not drawn on the display for use as input, and 
 an option is given to input the name of that layer, if desired.
 Otherwise, the currently displayed map layer will be used.
-Next, the color options of <EM>
-<A HREF="d.rast.arrow.html">d.rast.arrow</A></EM> may be set via separate menus,
+Next, the color options of <em>
+<a href="d.rast.arrow.html">d.rast.arrow</a></em> may be set via separate menus,
 or a choice for using default settings may be used.
 
-<P>
+<p>
 5. Number
 <BR>
-calls the <EM>
-<A HREF="d.rast.num.html">d.rast.num</A></EM> program, which will print the cell category values
+calls the <em>
+<a href="d.rast.num.html">d.rast.num</a></em> program, which will print the cell category values
 over the displayed cells on the graphic monitor.
 
-<P>
+<p>
 6. Exit
 <BR>
-<B>quit</B> the <EM>d.rast.edit</EM> program.  If edits have been made,
+<b>quit</b> the <em>d.rast.edit</em> program.  If edits have been made,
 the new raster map layer will be created.  Support files are constructed.
 Category labels and color maps (if any) are copied from the original layer.
-<EM>d.rast.edit</EM> redisplays the original raster map file on the monitor
+<em>d.rast.edit</em> redisplays the original raster map file on the monitor
 as it exits.
 </DL>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-<EM>d.rast.edit</EM> will not create a new raster map layer if
+<em>d.rast.edit</em> will not create a new raster map layer if
 the user makes no cell edits while running the program.
 
-<P>
+<p>
 Be careful not to cover the graphics monitor window with another
-frame during the editing process.  In some cases, the <EM>redraw</EM> option
+frame during the editing process.  In some cases, the <em>redraw</em> option
 will be able to remove traces of other frames;  otherwise, the graphics monitor
-will not be refreshed until after <EM>d.rast.edit</EM> exits.  Further note,
-however, that this has only been tested on <EM>SUN</EM> workstations, using a
-modified <EM>SUNVIEW</EM> graphics monitor driver.
+will not be refreshed until after <em>d.rast.edit</em> exits.  Further note,
+however, that this has only been tested on <em>SUN</em> workstations, using a
+modified <em>SUNVIEW</em> graphics monitor driver.
 
-<P>
-The primary bane of the <EM>d.rast.edit</EM> program involves large map layers
+<p>
+The primary bane of the <em>d.rast.edit</em> program involves large map layers
 (with lots of rows and columns) and/or slow computers,
 since the program must read and write raster map layers row by row for the full
 size of the map layer as dictated by its region size and resolution.
 (The current region settings of north, south, east, and west
 will not limit the size of the edited copy of the map layer,
-since by use of the <EM><A HREF="d.zoom.html">d.zoom</A></EM> program, these values
+since by use of the <em><a href="d.zoom.html">d.zoom</a></em> program, these values
 may change several times during the editing session). 
 Their effects could be lessened if the program
 were to create a table of changes that it could incorporate into
 the new raster map on a forked process started when the user exits, or 
 otherwise allow the user to issue a "save" command when he has
 made all desired edits to the raster map.  Currently, for instance, if
-the user needs to use <EM> <A HREF="d.zoom.html">d.zoom</A></EM> to access a different area of the 
+the user needs to use <em> <a href="d.zoom.html">d.zoom</a></em> to access a different area of the 
 map, he must wait for a read and write for each entrance
 and egress of the edit mode.
 
-<P>
+<p>
 There is no "undo" command or way to exit edit mode without saving
 changes.
 
-<P>
-It would be nice to incorporate a scrollable version of <EM>
-<A HREF="d.legend.html">d.legend</A>
-</EM>
+<p>
+It would be nice to incorporate a scrollable version of <em>
+<a href="d.legend.html">d.legend</a>
+</em>
 (such that one could see a legend for files with many categories on
 a standard size sub-frame).  It would be even nicer to be able
 to select the category values from a graphical legend when editing
 cell values (thereby saving a trip to the text frame to type in the
 new value).
 
-<P>
+<p>
 Perhaps method(s) for multiple  or mass cell edits would be useful.
 This could be done by providing modes in which the user may:
 1) edit a block of cells to a given value by drawing a box;
 2) be able to choose a given value which is automatically used as
 the new value on each cell chosen until a different value is desired.
 
-<P>
+<p>
 There is no interrupt handling.  This could leave files in .tmp
 or (rarely) result in half-baked raster maps.  The original file
 would survive unscathed by an interrupt at most any point in execution,
 but the graphics monitor may be left in an indeterminate state
-(try <EM>
-<A HREF="d.erase.html">d.erase</A>
-</EM> or <EM>
-<A HREF="d.mon.html">d.mon</A>
- select=monitor_name</EM>
+(try <em>
+<a href="d.erase.html">d.erase</a>
+</em> or <em>
+<a href="d.mon.html">d.mon</a>
+ select=monitor_name</em>
 to bring it back into shape).  Beware of exiting the program
-by means other than using <EM>exit</EM> on the <EM>Main Menu</EM>.
+by means other than using <em>exit</em> on the <em>Main Menu</em>.
 
-<P>
+<p>
 The program has no method to enter new values beyond the current range of
 categories, but additional programming could make it so.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 <em><a href="d.erase.html">d.erase</a></em>,
 <em><a href="d.frame.html">d.frame</a></em>,
@@ -208,7 +208,7 @@
 <em><a href="g.region.html">g.region</a></em>,
 <em><a href="r.slope.aspect.html">r.slope.aspect</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Chris Rewerts, Agricultural Engineering, 
 Purdue University

Modified: grass/branches/develbranch_6/display/d.rast.num/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.rast.num/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.rast.num/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.rast.num</EM>
+<em>d.rast.num</em>
 overlays cell category values onto a raster map layer displayed
 on the user's graphics monitor.
 
@@ -8,16 +8,16 @@
 to fit within a single cell. A grid outlining each map cell will also 
 be overlain in a user-specified color, unless it has been set to "none".
 
-<P>
+<p>
 If no grid color is given the default will be used. If no map layer
 is specified, the program will use whatever raster map layer is
 currently displayed in the active frame on the graphics monitor.
-<P>
+<p>
 If the <b>-f</b> flag is given the displayed number will take on the color 
 of the base map in that cell.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The user is advised to set the current region to a relatively
 small area (i.e., less than 100 rows by 100 columns);
@@ -25,7 +25,7 @@
 and the category value associated with each will be difficult to see.
 No data cells are indicated with "Null".
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 
 <em><a href="d.frame.html">d.frame</a></em>,
@@ -37,7 +37,7 @@
 <em><a href="r.slope.aspect.html">r.slope.aspect</a></em>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 Raghavan Srinivasan,
 and Chris Rewerts,<BR>

Modified: grass/branches/develbranch_6/display/d.rgb/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.rgb/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.rgb/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,26 +1,26 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>RGB</EM> stands for red, green, and blue. This program
+<em>RGB</em> stands for red, green, and blue. This program
 visually combines three raster map layers to form a color
 image. For each layer, the corresponding component from
 the layer's color table is used (e.g. for the red layer,
 the red component is used, and so on). In general, the
 layers should use a grey-scale color table.
 
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 <H3>Flags:</H3> 
 
 <DL>
 
-<DT><B>-o</B>
+<DT><b>-o</b>
 
 <DD>Overlay the resulting raster map layer onto whatever is already
 displayed in the active graphics frame. Any no-data areas in any of
 the named raster maps will seem transparent, and reveal the underlying
-image previously displayed in the graphics frame. If the <B>-o</B>
+image previously displayed in the graphics frame. If the <b>-o</b>
 flag is set, only cells containing non-null values will be displayed
-from the <EM>overlaid</EM> raster map. All other areas (i.e., the
+from the <em>overlaid</em> raster map. All other areas (i.e., the
 portions of the overlaid map that contain null values) will leave the
 underlying display untouched.
 
@@ -29,17 +29,17 @@
 <H3>Parameters:</H3>
 
 <DL>
-<DT><B>red=</B><EM>name</EM>
+<DT><b>red=</b><em>name</em>
 <DD>Name of raster map layer to be used for RED component. 
-<DT><B>green=</B><EM>name</EM>
+<DT><b>green=</b><em>name</em>
 <DD>Name of raster map layer to be used for GREEN component. 
-<DT><B>blue=</B><EM>name</EM>
+<DT><b>blue=</b><em>name</em>
 <DD>Name of raster map layer to be used for BLUE component. 
 </DL>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-This is a new version of <B>d.rgb</B>, which sends the
+This is a new version of <b>d.rgb</b>, which sends the
 data to the graphics monitor in true-color RGB format.
 
 Unlike the previous version, it does not attempt to
@@ -49,45 +49,45 @@
 The image and raster map layers will not display properly
 if the graphics device does not have a reasonable sampling
 of the RGB color-space.
-<P>
+<p>
 
 If color quality of satellite image color composites seems to appear poor,
-run <EM><a href="r.colors.html">r.colors</A></EM> on the selected satellite 
-channels.<P>
+run <em><a href="r.colors.html">r.colors</a></em> on the selected satellite 
+channels.<p>
 Example:
 <dl>
-<dd><B>r.info -r</B> <EM>image.1</EM><BR>
+<dd><b>r.info -r</b> <em>image.1</em><BR>
 <tt>min=0<BR>
 max=255</tt><BR>
 
-<dd><B>r.colors map=</B><EM>image.1</EM> <B>color=</B><EM>rules</EM> 
+<dd><b>r.colors map=</b><em>image.1</em> <b>color=</b><em>rules</em> 
 << EOF<BR>
 0 black<BR>
 255 white<BR>
 EOF<BR>
 
-<dd><B>r.colors map=</B><EM>image.2</EM> <B>rast=</B><EM>image.1</EM>
-<dd><B>r.colors map=</B><EM>image.3</EM> <B>rast=</B><EM>image.1</EM>
+<dd><b>r.colors map=</b><em>image.2</em> <b>rast=</b><em>image.1</em>
+<dd><b>r.colors map=</b><em>image.3</em> <b>rast=</b><em>image.1</em>
 </dl>
 
-<EM>Note: Future GRASS versions may do this for you automatically.</EM>
+<em>Note: Future GRASS versions may do this for you automatically.</em>
 <BR><BR><BR>
 
 To write out the color composite to a R/G/B raster maps, use 
-<EM><a href="r.composite.html">r.composite</A></EM>.
+<em><a href="r.composite.html">r.composite</a></em>.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.colors.html">d.colors</A></EM><br>
-<EM><A HREF="d.colortable.html">d.colortable</A></EM><br>
-<EM><A HREF="d.his.html">d.his</A></EM><br>
-<EM><A HREF="r.blend.html">r.blend</A></EM><br>
-<EM><A HREF="r.mapcalc.html">r.mapcalc</A></EM><br>
-<EM><A HREF="r.colors.html">r.colors</A></EM><br>
-<EM><A HREF="r.composite.html">r.composite</A></EM>
+<em><a href="d.colors.html">d.colors</a></em><br>
+<em><a href="d.colortable.html">d.colortable</a></em><br>
+<em><a href="d.his.html">d.his</a></em><br>
+<em><a href="r.blend.html">r.blend</a></em><br>
+<em><a href="r.mapcalc.html">r.mapcalc</a></em><br>
+<em><a href="r.colors.html">r.colors</a></em><br>
+<em><a href="r.composite.html">r.composite</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Glynn Clements
 

Modified: grass/branches/develbranch_6/display/d.rhumbline/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.rhumbline/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.rhumbline/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 A rhumbline (loxodrome) is a line following a constant angle of the
 compass (i.e., a line of constant direction). It crosses all meridians
@@ -6,17 +6,17 @@
 
  <!-- There are 32
 points on the compass (points are roughly 11 degrees 15
-minutes apart). --> <EM>d.rhumbline</EM> displays the
+minutes apart). --> <em>d.rhumbline</em> displays the
 rhumbline joining any two user-specified points in the
 active frame on the user's graphics monitor.  The named
 coordinate locations must fall within the boundaries of the
 user's current geographic region.
 
-<P>
+<p>
 
 The user can run this program either interactively or
 non-interactively.  If the user simply types
-<B>d.rhumbline</B> on the command line and runs it without specifying
+<b>d.rhumbline</b> on the command line and runs it without specifying
 parameter values, the mouse will be activated and the user
 will be asked to use the mouse to indicate the two
 endpoints of the rhumbline.  The rhumbline is then drawn in
@@ -26,7 +26,7 @@
 depressed by the user in a format useful for input to other
 programs. -->
 
-<P>
+<p>
 
 Alternately, the user can specify the starting and ending
 longitude/latitude coordinates of the rhumbline and
@@ -51,15 +51,15 @@
 </center>
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 This program works only with longitude-latitude locations. 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.geodesic.html">d.geodesic</A></EM>
+<em><a href="d.geodesic.html">d.geodesic</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro, 
 U.S. Army Construction Engineering 

Modified: grass/branches/develbranch_6/display/d.save/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.save/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.save/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,47 +1,47 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-When GRASS display (<EM>d.</EM>) commands are used to
+When GRASS display (<em>d.</em>) commands are used to
 generate graphical images on the graphics monitor, some
 commands are noted in lists that the current graphics
 driver (see manual entry for 
-<EM><A HREF="d.mon.html">d.mon</A></EM>) maintains. This
-command, <EM>d.save</EM>, uses this information to
+<em><a href="d.mon.html">d.mon</a></em>) maintains. This
+command, <em>d.save</em>, uses this information to
 create a shell script that can be used to recreate graphics
 in another frame at another time. The shell script is sent
 to standard output (the user's terminal). If you wish to
-save the shell script created by <EM>d.save</EM>, its
+save the shell script created by <em>d.save</em>, its
 output should be redirected to a file; for example:
 <DL>
-<DD> <B>d.save &gt; script.out </B> 
+<DD> <b>d.save &gt; script.out </b> 
 </DL>
 
 The user can run the program non-interactively by
 specifying flag settings and parameter values on the
-command line. If the user types <B>d.save</B> without
+command line. If the user types <b>d.save</b> without
 specifying these program arguments, the user will be
 prompted for inputs through the standard user interface
 described in the manual entry for 
-<EM><A HREF="g.parser.html">g.parser</A></EM>.
+<em><a href="g.parser.html">g.parser</a></em>.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Object numbers for remove= and move= options are displayed after #.
 
-<P>
+<p>
 
 Display commands used interactively, and those that take
 their graphic instructions from standard input, will not be
-saved by <EM>d.save</EM>.
+saved by <em>d.save</em>.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.frame.html">d.frame</A></EM><br>
-<EM><A HREF="d.mon.html">d.mon</A></EM><br>
-<EM><A HREF="g.region.html">g.region</A></EM><br>
-<EM><A HREF="g.parser.html">g.parser</A></EM>
+<em><a href="d.frame.html">d.frame</a></em><br>
+<em><a href="d.mon.html">d.mon</a></em><br>
+<em><a href="g.region.html">g.region</a></em><br>
+<em><a href="g.parser.html">g.parser</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 David Satnik, 
 Central Washington University

Modified: grass/branches/develbranch_6/display/d.text/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.text/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.text/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.text</EM> draws text in the active display frame on
+<em>d.text</em> draws text in the active display frame on
 the graphics monitor.  Text can be provided through
 standard input or redirected from a file (using the UNIX
 redirection mechanism).
@@ -8,7 +8,7 @@
 In addition to the options provided on the command line,
 colors, text size, font type, rotation angle, and boldness can be adjusted
 with commands in the standard input (i.e., if the user
-invokes <EM>d.text</EM> without options on the command
+invokes <em>d.text</em> without options on the command
 line, and then assigns values to these options on lines
 within the standard input).
 
@@ -16,58 +16,58 @@
 
 <DL>
 
-<DT><B>.C</B> <EM>color</EM> 
+<DT><b>.C</b> <em>color</em> 
 <DD>
-(where <EM>color</EM> is one of the available colors) causes text appearing on 
+(where <em>color</em> is one of the available colors) causes text appearing on 
 subsequent lines to be drawn in that color. 
 
-<DT><B>.S </B> <EM>size</EM>
+<DT><b>.S </b> <em>size</em>
 <DD>
-(where <EM>size</EM> is a percentage within the range 0 to
+(where <em>size</em> is a percentage within the range 0 to
 100) adjusts text size.  Note that a size of 10 would allow
 10 lines to be drawn in the active display frame, 5 would
 allow the drawing of 20 lines, and 50 would allow the
 drawing of 2 lines.
 
-<P>
-<DT><B>.F</B> <EM>font</EM>
+<p>
+<DT><b>.F</b> <em>font</em>
 <DD>
-(where <EM>font</EM> is one of the fonts known by the GRASS program 
-<EM><A HREF="d.font.html">d.font</A></EM>) manipulates
+(where <em>font</em> is one of the fonts known by the GRASS program 
+<em><a href="d.font.html">d.font</a></em>) manipulates
 the font type. Available fonts are listed in the GRASS manual entry for 
-<EM><A HREF="d.font.html">d.font</A></EM>. 
+<em><a href="d.font.html">d.font</a></em>. 
 The default font type used (if unspecified by the user) 
-is <EM>romans</EM>.
+is <em>romans</em>.
 <!-- Run the GRASS macro 
-<EM><A  HREF="show.fonts.sh.html">show.fonts.sh</A></EM> 
+<em><A  HREF="show.fonts.sh.html">show.fonts.sh</a></em> 
 to see what these fonts look like. -->
 
-<DT><B>.R </B> <EM>rotation</EM>
+<DT><b>.R </b> <em>rotation</em>
 <DD>
-(where <EM>rotation</EM> is an angle in degrees, counter-clockwise)
+(where <em>rotation</em> is an angle in degrees, counter-clockwise)
 to rotate the text.
 
-<DT><B>.B 1</B>
-<DD>stipulates that following text be printed in <B>bold</B>.
-This command means <EM>bold on</EM>.
+<DT><b>.B 1</b>
+<DD>stipulates that following text be printed in <b>bold</b>.
+This command means <em>bold on</em>.
 
-<DT><B>.B 0</B>
-<DD> turns <EM>bold off</EM> of all text appearing on lines beneath 
-     it. (<EM>Bold off</EM> is used by default, if unspecified by the user.) 
+<DT><b>.B 0</b>
+<DD> turns <em>bold off</em> of all text appearing on lines beneath 
+     it. (<em>Bold off</em> is used by default, if unspecified by the user.) 
 
 </DL>
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 The following command will print the short phrase "This is
 a test of d.text" in the active display frame using the
 color yellow, in bold, and using 4/100'ths (4%) of the
 active frame's vertical space per line:
-<P>
+<p>
 
 
 <pre>
-    <B>d.text</B> << EOF
+    <b>d.text</b> << EOF
     .C yellow 
     .S 4 
     .B 1
@@ -76,31 +76,31 @@
 </pre>
 
 
-The user presses <EM>control-d</EM> 
-(the "Ctrl" and "d" keys) to end input to <EM>d.text</EM> (equal to EOF).
+The user presses <em>control-d</em> 
+(the "Ctrl" and "d" keys) to end input to <em>d.text</em> (equal to EOF).
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Note that the GRASS command 
-<EM><A HREF="d.title.html">d.title</A></EM> creates map TITLEs in a format 
-suitable for input to <EM>d.text</EM>.
+<em><a href="d.title.html">d.title</a></em> creates map TITLEs in a format 
+suitable for input to <em>d.text</em>.
 
-<P>
+<p>
 
-<EM>d.text</EM> needs escape sequences that can be used
+<em>d.text</em> needs escape sequences that can be used
 within lines to change colors, boldness, and perhaps size.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.font.html">d.font</A></EM><br>
-<EM><A HREF="d.font.freetype.html">d.font.freetype</A></EM><br>
-<EM><A HREF="d.title.html">d.title</A></EM><br>
-<!-- <EM><A HREF="show.fonts.sh.html">show.fonts.sh</A></EM><br> -->
-<EM><A HREF="d.text.freetype.html">d.text.freetype</A></EM><br>
-<EM><A HREF="d.labels.html">d.labels</A></EM><br>
+<em><a href="d.font.html">d.font</a></em><br>
+<em><a href="d.font.freetype.html">d.font.freetype</a></em><br>
+<em><a href="d.title.html">d.title</a></em><br>
+<!-- <em><a href="show.fonts.sh.html">show.fonts.sh</a></em><br> -->
+<em><a href="d.text.freetype.html">d.text.freetype</a></em><br>
+<em><a href="d.labels.html">d.labels</a></em><br>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 James Westervelt, 
 U.S. Army Construction Engineering 

Modified: grass/branches/develbranch_6/display/d.text.freetype/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.text.freetype/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.text.freetype/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,7 +1,7 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>d.text.freetype</EM>
+<em>d.text.freetype</em>
 draws text in the graphics monitor's active display frame using TrueType
 fonts already installed on the user's system.
 <BR>
@@ -11,34 +11,34 @@
 
 <DL>
 
-<DT><B>at=</B><EM>x,y</EM>
+<DT><b>at=</b><em>x,y</em>
 <DD>Locates the text at this screen position (percentage, [0,0] is bottom
     left). If this option is omitted, 
     the user will be prompted to use the mouse to specify the location.
-<DT><B>font=</B><EM>name</EM>
+<DT><b>font=</b><em>name</em>
 <DD>Specifies a font listed in the GRASS 'freetypecap' definition file.
 
-<DT><B>charset=</B><EM>name</EM>
-<DD>Sets character encoding for input <B>text</B>. (e.g. <TT>ISO-8859-1</TT>)
+<DT><b>charset=</b><em>name</em>
+<DD>Sets character encoding for input <b>text</b>. (e.g. <TT>ISO-8859-1</TT>)
 
-<DT><B>color=</B><EM>name</EM>
-<DD>Sets text color to <EM>name</EM> or <EM>R:G:B triplet</EM>.
+<DT><b>color=</b><em>name</em>
+<DD>Sets text color to <em>name</em> or <em>R:G:B triplet</em>.
 	It can also be a hexadecimal value of <TT>0xRRGGBB</TT>
 	(deprecated).<BR>
     Options: red, orange, yellow, green, blue, indigo, 
     violet, gray, white, and black<BR>
-    Default: <EM>gray</EM><BR>
+    Default: <em>gray</em><BR>
 
-<DT><B>size=</B><EM>value</EM>
+<DT><b>size=</b><em>value</em>
 <DD>Sets text height in percent of available frame height.<BR>
     Default: 10
 
-<DT><B>align=</B><EM>name</EM>
+<DT><b>align=</b><em>name</em>
 <DD>Aligns text in this way.<BR>
     Options: ll, lc, lr, cl, cc, cr, ul, uc, ur<BR>
     l?: Lower, c?: Vertically Centered, u?: Upper,<BR>
     ?l: Left, ?c: Horizontally Centered, ?r: Right<BR>
-    Default: <EM>ll</EM> (Lower Left)<BR>
+    Default: <em>ll</em> (Lower Left)<BR>
 
 </DL>
 
@@ -62,44 +62,44 @@
 <H4>Commands</H4>
 
 <DL>
-<DT><DD>.F {font|path}[:charset] <EM>font</EM>
+<DT><DD>.F {font|path}[:charset] <em>font</em>
 <DD>
-<DT><DD>.C {color_name|R:G:B} <EM>color</EM> (default: gray)
+<DT><DD>.C {color_name|R:G:B} <em>color</em> (default: gray)
 <DD>
-<DT><DD>.S [+|-]size[p] <EM>size</EM> (default: 5)
+<DT><DD>.S [+|-]size[p] <em>size</em> (default: 5)
 <DD>
-<DT><DD>.B {0|1} <EM>bold</EM> (default: 0)
+<DT><DD>.B {0|1} <em>bold</em> (default: 0)
 <DD>
-<DT><DD>.A {ll|lc|lr|cl|cc|cr|ul|uc|ur} <EM>align</EM> (default: ll)
+<DT><DD>.A {ll|lc|lr|cl|cc|cr|ul|uc|ur} <em>align</em> (default: ll)
 <DD>
-<DT><DD>.R [+|-]rotation[r] <EM>rotation</EM> (default: 0)
+<DT><DD>.R [+|-]rotation[r] <em>rotation</em> (default: 0)
 <DD>
-<DT><DD>.I linespacing <EM>linespacing</EM> (default: 1.1)
+<DT><DD>.I linespacing <em>linespacing</em> (default: 1.1)
 <DD>
-<DT><DD>.X [+|-]x[%|p] <EM>x-coord</EM>
+<DT><DD>.X [+|-]x[%|p] <em>x-coord</em>
 <DD>
-<DT><DD>.Y [+|-]y[%|p] <EM>y-coord</EM>
+<DT><DD>.Y [+|-]y[%|p] <em>y-coord</em>
 <DD>
-<DT><DD>.L {0|1} <EM>linefeed</EM> (default: 1)
+<DT><DD>.L {0|1} <em>linefeed</em> (default: 1)
 <DD>
-<DT><DD>.E [+|-]east[%|p] <EM>x-origin</EM>
+<DT><DD>.E [+|-]east[%|p] <em>x-origin</em>
 <DD>
-<DT><DD>.N [+|-]north[%|p] <EM>y-origin</EM>
+<DT><DD>.N [+|-]north[%|p] <em>y-origin</em>
 <DD>
-<DT><DD>.. <EM>dot</EM>
+<DT><DD>.. <em>dot</em>
 <DD>
 </DL>
 
 To end input, press Ctrl-d on a blank line.
 <BR><BR>
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 <H4>Standard mode:</H4>
 
-<TT><B>d.text.freetype</B> text="GRASS GIS" -g at=2107055,5603133 \<BR>
+<TT><b>d.text.freetype</b> text="GRASS GIS" -g at=2107055,5603133 \<BR>
 &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;size=7 path=/usr/X11R6/lib/X11/fonts/TTF/luximb.ttf</TT>
-<P>
+<p>
 
 <H4>Command mode:</H4>
 The following example prints three lines: "<TT><font color=gray>GRASS</font>
@@ -108,7 +108,7 @@
 "<TT><font color=gray>for more details.</font></TT>".
 
 <DL>
-<DT><TT><B>d.text.freetype -c</B></TT>
+<DT><TT><b>d.text.freetype -c</b></TT>
 </DL>
 <pre>.F /usr/X11R6/lib/X11/fonts/TTF/luximb.ttf:ISO-8859-1
 .S 20p
@@ -124,10 +124,10 @@
 </pre>
 
 Command mode instructions may also be read directly from a text file:<BR><BR>
-<TT><B>d.text.freetype</B> -c &lt; test.input</TT>
+<TT><b>d.text.freetype</b> -c &lt; test.input</TT>
 
 
-<H2>DEFINITION FILE</H2>
+<h2>DEFINITION FILE</h2>
 
 To help users select fonts conveniently, the definition file,
 <TT>$(GISBASE)/etc/freetypecap</TT>, is provided.  Its format is as follows:
@@ -140,20 +140,20 @@
 See the file for examples.
 <BR><BR>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.text.html">d.text</A></EM><br>
-<EM><A HREF="d.font.freetype.html">d.font.freetype</A></EM><br>
-<EM><A HREF="d.font.html">d.font</A></EM><br>
-<EM><A HREF="d.title.html">d.title</A></EM><br>
-<EM><A HREF="d.where.html">d.where</A></EM><br>
+<em><a href="d.text.html">d.text</a></em><br>
+<em><a href="d.font.freetype.html">d.font.freetype</a></em><br>
+<em><a href="d.font.html">d.font</a></em><br>
+<em><a href="d.title.html">d.title</a></em><br>
+<em><a href="d.where.html">d.where</a></em><br>
 <BR><BR>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Huidae Cho
 &lt;<a href=mailto:grass4u at gmail.com>grass4u at gmail.com</a>&gt;
-<P>
+<p>
 Updates by Hamish Bowman, NZ
 
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/display/d.text.new/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.text.new/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.text.new/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.text</EM> draws text in the active display frame on
+<em>d.text</em> draws text in the active display frame on
 the graphics monitor.  Text can be provided through
 standard input or redirected from a file (using the UNIX
 redirection mechanism).
@@ -8,7 +8,7 @@
 In addition to the options provided on the command line,
 colors, text size, font type, rotation angle, and boldness can be adjusted
 with commands in the standard input (i.e., if the user
-invokes <EM>d.text</EM> without options on the command
+invokes <em>d.text</em> without options on the command
 line, and then assigns values to these options on lines
 within the standard input).
 
@@ -16,64 +16,64 @@
 
 <DL>
 
-<DT><B>.C</B> <EM>color</EM> 
+<DT><b>.C</b> <em>color</em> 
 <DD>
-(where <EM>color</EM> is one of the available colors) causes text appearing on 
+(where <em>color</em> is one of the available colors) causes text appearing on 
 subsequent lines to be drawn in that color. 
 
 
-<DT><B>.G</B> <EM>color</EM>
+<DT><b>.G</b> <em>color</em>
 <DD>
-(where <EM>color</EM> is one of the available colors) causes the background of text
+(where <em>color</em> is one of the available colors) causes the background of text
 appearing on subsequent lines to be drawn in that color.
 
-<DT><B>.S </B> <EM>size</EM>
+<DT><b>.S </b> <em>size</em>
 <DD>
-(where <EM>size</EM> is a percentage within the range 0 to
+(where <em>size</em> is a percentage within the range 0 to
 100) adjusts text size.  Note that a size of 10 would allow
 10 lines to be drawn in the active display frame, 5 would
 allow the drawing of 20 lines, and 50 would allow the
 drawing of 2 lines.
 
-<P>
-<DT><B>.F</B> <EM>font</EM>
+<p>
+<DT><b>.F</b> <em>font</em>
 <DD>
-(where <EM>font</EM> is one of the fonts known by the GRASS program 
-<EM><A HREF="d.font.html">d.font</A></EM>) manipulates
+(where <em>font</em> is one of the fonts known by the GRASS program 
+<em><a href="d.font.html">d.font</a></em>) manipulates
 the font type. Available fonts are listed in the GRASS manual entry for 
-<EM><A HREF="d.font.html">d.font</A></EM>. 
+<em><a href="d.font.html">d.font</a></em>. 
 The default font type used (if unspecified by the user) 
-is <EM>romans</EM>.
+is <em>romans</em>.
 <!-- Run the GRASS macro 
-<EM><A  HREF="show.fonts.sh.html">show.fonts.sh</A></EM> 
+<em><A  HREF="show.fonts.sh.html">show.fonts.sh</a></em> 
 to see what these fonts look like. -->
 
-<DT><B>.R </B> <EM>rotation</EM>
+<DT><b>.R </b> <em>rotation</em>
 <DD>
-(where <EM>rotation</EM> is an angle in degrees, counter-clockwise)
+(where <em>rotation</em> is an angle in degrees, counter-clockwise)
 to rotate the text.
 
-<DT><B>.B 1</B>
-<DD>stipulates that following text be printed in <B>bold</B>.
-This command means <EM>bold on</EM>.
+<DT><b>.B 1</b>
+<DD>stipulates that following text be printed in <b>bold</b>.
+This command means <em>bold on</em>.
 
-<DT><B>.B 0</B>
-<DD> turns <EM>bold off</EM> of all text appearing on lines beneath 
-     it. (<EM>Bold off</EM> is used by default, if unspecified by the user.) 
+<DT><b>.B 0</b>
+<DD> turns <em>bold off</em> of all text appearing on lines beneath 
+     it. (<em>Bold off</em> is used by default, if unspecified by the user.) 
 
 </DL>
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 The following command will print the short phrase "This is
 a test of d.text" in the active display frame using the
 color yellow, in bold, and using 4/100'ths (4%) of the
 active frame's vertical space per line:
-<P>
+<p>
 
 
 <pre>
-<B>d.text</B> << EOF
+<b>d.text</b> << EOF
 .C yellow
 .G grey
 .S 4 
@@ -83,36 +83,36 @@
 </pre>
 
 
-The user presses <EM>control-d</EM> 
-(the "Ctrl" and "d" keys) to end input to <EM>d.text</EM> (equal to EOF).
+The user presses <em>control-d</em> 
+(the "Ctrl" and "d" keys) to end input to <em>d.text</em> (equal to EOF).
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Note that the GRASS command 
-<EM><A HREF="d.title.html">d.title</A></EM> creates map TITLEs in a format 
-suitable for input to <EM>d.text</EM>.
+<em><a href="d.title.html">d.title</a></em> creates map TITLEs in a format 
+suitable for input to <em>d.text</em>.
 
-<P>
+<p>
 
-<EM>d.text</EM> needs escape sequences that can be used
+<em>d.text</em> needs escape sequences that can be used
 within lines to change colors, boldness, and perhaps size.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.font.html">d.font</A></EM><br>
-<EM><A HREF="d.font.freetype.html">d.font.freetype</A></EM><br>
-<EM><A HREF="d.title.html">d.title</A></EM><br>
-<!-- <EM><A HREF="show.fonts.sh.html">show.fonts.sh</A></EM><br> -->
-<EM><A HREF="d.text.freetype.html">d.text.freetype</A></EM><br>
-<EM><A HREF="d.labels.html">d.labels</A></EM><br>
+<em><a href="d.font.html">d.font</a></em><br>
+<em><a href="d.font.freetype.html">d.font.freetype</a></em><br>
+<em><a href="d.title.html">d.title</a></em><br>
+<!-- <em><a href="show.fonts.sh.html">show.fonts.sh</a></em><br> -->
+<em><a href="d.text.freetype.html">d.text.freetype</a></em><br>
+<em><a href="d.labels.html">d.labels</a></em><br>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 James Westervelt, 
 U.S. Army Construction Engineering 
 Research Laboratory
-<P>
+<p>
 Updates by Huidae Cho
 
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/display/d.thematic.area/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.thematic.area/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.thematic.area/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <em>d.thematic.area</em> draws thematic coropleth vector maps based on an attribute column or an expression involving several columns. It takes a number of class breaks (excluding the minimum and maximum values) and a list of colors to apply to the classes (has to be the number of class breaks + 1).
 
@@ -7,7 +7,7 @@
 One can used <em>v.class</em> to supply class breaks for d.thematic.area (see example below);
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 <div class="code"><pre>
 d.thematic.area -l map=communes3 data=pop breaks=111393.250000,222785.500000,334177.750000 colors=255:0:0,0:255:0,0:0:255,0,0,0
@@ -18,13 +18,13 @@
 d.thematic.area -l map=communes2 data=pop/area breaks=`v.class -g map=communes2 column=pop/area algo=std nbcla=5` colors=0:0:255,50:100:255,255:100:50,255:0:0,156:0:0
 </pre></div>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="v.class.html">v.class</A></EM>
-<EM><A HREF="d.vect.html">d.vect</A></EM>
-<EM><A HREF="v.univar.html">v.univar</A></EM>
+<em><a href="v.class.html">v.class</a></em>
+<em><a href="d.vect.html">d.vect</a></em>
+<em><a href="v.univar.html">v.univar</a></em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Moritz Lennert

Modified: grass/branches/develbranch_6/display/d.title/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.title/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.title/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,60 +1,60 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.title</EM> generates to standard output a string which can be used by
-<EM><A HREF="d.text.html">d.text</A></EM> to draw a TITLE for the raster map
-layer <EM>name</EM> in the active display frame on the graphics monitor. 
-Output created by <EM>d.title</EM> can be redirected into a file, or piped
-directly into <EM><A HREF="d.text.html">d.text</A></EM> to display the map
-TITLE created by <EM>d.title</EM>.  The map TITLE created will include the
+<em>d.title</em> generates to standard output a string which can be used by
+<em><a href="d.text.html">d.text</a></em> to draw a TITLE for the raster map
+layer <em>name</em> in the active display frame on the graphics monitor. 
+Output created by <em>d.title</em> can be redirected into a file, or piped
+directly into <em><a href="d.text.html">d.text</a></em> to display the map
+TITLE created by <em>d.title</em>.  The map TITLE created will include the
 map layer's name, TITLE, MAPSET, LOCATION_NAME, geographic region boundary
 coordinates, and cell resolution.
-If the <b>-d</b> draw flag is used, then <EM>d.title</EM> will call
-<EM>d.text</EM> for you and the title will be automatically rendered
+If the <b>-d</b> draw flag is used, then <em>d.title</em> will call
+<em>d.text</em> for you and the title will be automatically rendered
 to the display.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The text created with 
-<EM><A HREF="d.text.html">d.text</A></EM> 
+<em><a href="d.text.html">d.text</a></em> 
 will not necessarily fit within the 
 active display frame on the graphics monitor; 
 the user should choose a text size appropriate to this frame. 
 
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 For example, a user wishing to create a suitable TITLE for the 
-Spearfish, SD <EM>soils</EM> map layer and to display this TITLE in the 
+Spearfish, SD <em>soils</em> map layer and to display this TITLE in the 
 active display frame on the graphics monitor might type the following: 
 <DL>
-<DD> <B>d.title map=</B><EM>soils</EM> <B>color=</B><EM>red</EM> <B>size=</B><EM>5</EM> <B>&gt; TITLE.file</B>
-<DD> <B><A HREF="d.text.html">d.text</A> &lt; TITLE.file</B> 
+<DD> <b>d.title map=</b><em>soils</em> <b>color=</b><em>red</em> <b>size=</b><em>5</em> <b>&gt; TITLE.file</b>
+<DD> <b><a href="d.text.html">d.text</a> &lt; TITLE.file</b> 
 </DL>
-Alternately, the user might pipe <EM>d.title</EM> output directly 
-into <EM><A HREF="d.text.html">d.text</A>:</EM> 
+Alternately, the user might pipe <em>d.title</em> output directly 
+into <em><a href="d.text.html">d.text</a>:</em> 
 <DL>
 <DD>
-<B>d.title map=</B><EM>soils</EM> <B>color=</B><EM>red</EM> <B>size=</B><EM>5</EM> | 
-<A HREF="d.text.html">d.text</A>
+<b>d.title map=</b><em>soils</em> <b>color=</b><em>red</em> <b>size=</b><em>5</em> | 
+<a href="d.text.html">d.text</a>
 </DL>
 
-<P>
-A file created by <EM>d.title</EM> can be displayed 
-with <EM><A HREF="d.text.html">d.text</A></EM>.
+<p>
+A file created by <em>d.title</em> can be displayed 
+with <em><a href="d.text.html">d.text</a></em>.
 Information contained in this file takes precedence over the 
-<EM>color</EM> and <EM>size</EM> parameters for 
-<EM><A HREF="d.text.html">d.text</A></EM>.
+<em>color</em> and <em>size</em> parameters for 
+<em><a href="d.text.html">d.text</a></em>.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.font.html">d.font</A></EM><br>
-<EM><A HREF="d.font.freetype.html">d.font.freetype</A></EM><br>
-<EM><A HREF="d.text.html">d.text</A></EM><br>
+<em><a href="d.font.html">d.font</a></em><br>
+<em><a href="d.font.freetype.html">d.font.freetype</a></em><br>
+<em><a href="d.text.html">d.text</a></em><br>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 James Westervelt, 
 U.S. Army Construction Engineering 
 Research Laboratory

Modified: grass/branches/develbranch_6/display/d.vect/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.vect/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.vect/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -26,7 +26,7 @@
 (which is a <tt>varchar(11)</tt> column
 containing <tt>RRR:GGG:BBB</tt> values), see the flag <b>-a</b>.
 
-<P>
+<p>
 A table for a vector map might look like this:
 
 <div class="code"><pre>
@@ -109,14 +109,14 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="d.erase.html">d.erase</a>,
-<a HREF="d.what.vect.html">d.what.vect</a>,
-<a HREF="d.rast.html">d.rast</a>,
-<a HREF="d.font.freetype.html">d.font.freetype</a>,
-<a HREF="v.colors.html">v.colors</a>,
-<a HREF="v.db.addcol.html">v.db.addcol</a>,
-<a HREF="v.db.update.html">v.db.update</a><br>
-<a HREF="sql.html">GRASS SQL interface</a>
+<a href="d.erase.html">d.erase</a>,
+<a href="d.what.vect.html">d.what.vect</a>,
+<a href="d.rast.html">d.rast</a>,
+<a href="d.font.freetype.html">d.font.freetype</a>,
+<a href="v.colors.html">v.colors</a>,
+<a href="v.db.addcol.html">v.db.addcol</a>,
+<a href="v.db.update.html">v.db.update</a><br>
+<a href="sql.html">GRASS SQL interface</a>
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/display/d.vect.chart/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.vect.chart/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.vect.chart/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -41,11 +41,11 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.erase.html">d.erase</a>,
-<a HREF="d.vect.html">d.vect</a>,
+<em><a href="d.erase.html">d.erase</a>,
+<a href="d.vect.html">d.vect</a>,
 <a href="d.vect.thematic.html">d.vect.thematic</a>,
-<a HREF="d.what.vect.html">d.what.vect</a>,
-<a HREF="d.rast.html">d.rast</a></em>
+<a href="d.what.vect.html">d.what.vect</a>,
+<a href="d.rast.html">d.rast</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/display/d.what.rast/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.what.rast/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.what.rast/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -140,16 +140,16 @@
 
 <p>
 
-<em><a HREF="d.what.vect.html">d.what.vect</a></em>
+<em><a href="d.what.vect.html">d.what.vect</a></em>
 allows the user to interactively query the category
 contents of multiple vector map layers at user-specified
 locations.
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.rast.html">d.rast</a></em><br>
-<em><a HREF="d.what.vect.html">d.what.vect</a></em><br>
-<em><a HREF="g.region.html">g.region</a></em><br>
+<em><a href="d.rast.html">d.rast</a></em><br>
+<em><a href="d.what.vect.html">d.what.vect</a></em><br>
+<em><a href="g.region.html">g.region</a></em><br>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/display/d.what.vect/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.what.vect/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.what.vect/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -11,7 +11,7 @@
 graphic monitor. Query results from map(s) are by default displayed in a new 
 monitor, where label values can be added or changed. Using parameter <b>-x</b> 
 informations will be displayed as plain text to terminal window.
-<P>
+<p>
 This module always reports standard acres, even when the location uses
 US Survey feet as the map unit.
 
@@ -48,11 +48,11 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="d.rast.html">d.rast</a><br>
-<a HREF="d.vect.html">d.vect</a><br>
-<a HREF="d.what.rast.html">d.what.rast</a><br>
-<a HREF="g.region.html">g.region</a><br>
-<a HREF="v.what.html">v.what</a>
+<a href="d.rast.html">d.rast</a><br>
+<a href="d.vect.html">d.vect</a><br>
+<a href="d.what.rast.html">d.what.rast</a><br>
+<a href="g.region.html">g.region</a><br>
+<a href="v.what.html">v.what</a>
 </em>
 
 

Modified: grass/branches/develbranch_6/display/d.where/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.where/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.where/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,13 +1,13 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>d.where</EM> is an <EM>interactive</EM> program that
+<em>d.where</em> is an <em>interactive</em> program that
 allows the user, using the pointing device (mouse), to
 identify the geographic coordinates associated with point
 locations within the current geographic region in the
 active display frame on the graphics monitor.
 
-<P>
+<p>
 Each mouse click will output the easting and northing of the point
 currently located beneath the mouse pointer. 
 A mouse-button menu is presented so the user knows which
@@ -15,7 +15,7 @@
 terminal screen; if the output is redirected into a file,
 it will be written to the file as well.
 
-<P>
+<p>
 Mouse buttons:
 
 <pre>
@@ -29,11 +29,11 @@
 line for convenience). By using the right mouse button the module is left.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 This program uses the current geographic region setting and active frame. 
 It is not necessary, although useful, to have displayed a map in the current 
-frame before running <EM>d.where</EM>. The <b>-d</b> flag allows the user to
+frame before running <em>d.where</em>. The <b>-d</b> flag allows the user to
 optionally output latitude/longitude coordinates pair(s) in decimal degree
 rather than DD:MM:SS format. The <b>-w</b> flag is only valid
 if a datum is defined for the current location.
@@ -42,16 +42,16 @@
 monitor will be returned (as a percentage, 0,0 is bottom left).
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.what.rast.html">d.what.rast</A></EM><br>
-<EM><A HREF="d.what.vect.html">d.what.vect</A></EM><br>
-<EM><A HREF="g.region.html">g.region</A></EM><br>
-<EM><A HREF="v.what.rast.html">v.what.rast</A></EM><br>
-<EM><A HREF="v.what.vect.html">v.what.vect</A></EM>
+<em><a href="d.what.rast.html">d.what.rast</a></em><br>
+<em><a href="d.what.vect.html">d.what.vect</a></em><br>
+<em><a href="g.region.html">g.region</a></em><br>
+<em><a href="v.what.rast.html">v.what.rast</a></em><br>
+<em><a href="v.what.vect.html">v.what.vect</a></em>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 James Westervelt, <br>
 Michael Shapiro, <BR>

Modified: grass/branches/develbranch_6/display/d.zoom/description.html
===================================================================
--- grass/branches/develbranch_6/display/d.zoom/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/display/d.zoom/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -3,7 +3,7 @@
 <em>d.zoom</em> allows the user to interactively adjust the settings 
 of the current geographic region using a pointing device such as 
 a mouse. 
-Like <em><a HREF="g.region.html">g.region</a></em>, 
+Like <em><a href="g.region.html">g.region</a></em>, 
 <em>d.zoom</em> re-defines the settings of the geographic
 region.  However, <em>d.zoom</em> allows the user to change
 the current region settings interactively, by either
@@ -18,7 +18,7 @@
 <p>
 
 Additionally the region settings can be modified by
-running <em><a HREF="g.region.html">g.region</a></em>. 
+running <em><a href="g.region.html">g.region</a></em>. 
 
 <h2>NOTES</h2>
 
@@ -29,10 +29,10 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.erase.html">d.erase</a></em><br>
-<em><a HREF="d.rast.html">d.rast</a></em><br>
-<em><a HREF="d.vect.html">d.vect</a></em><br>
-<em><a HREF="g.region.html">g.region</a></em>
+<em><a href="d.erase.html">d.erase</a></em><br>
+<em><a href="d.rast.html">d.rast</a></em><br>
+<em><a href="d.vect.html">d.vect</a></em><br>
+<em><a href="g.region.html">g.region</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/doc/vector/v.modules.html
===================================================================
--- grass/branches/develbranch_6/doc/vector/v.modules.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/doc/vector/v.modules.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -2,15 +2,15 @@
 <TITLE>GRASS 5.1/7 Vector - Modules Status</TITLE>
 </HEAD>
 <BODY>
-<P>
+<p>
 <H1>GRASS 5.1/7 Vector - Modules Status</H1>
 
 This document describes the status of update from vector 4.0 (GRASS 4.0 and 5.0) to vector 5.0 (GRASS 5.1/7) format 
 and sites (GRASS 5.0) to vector 5.0 (GRASS 5.1/7) format.
 
-<P>
+<p>
 You are welcome to upgrade some modules. To avoid duplicate work please send
-information to <A href=mailto:blazek at itc.it>blazek at itc.it</A>
+information to <a href=mailto:blazek at itc.it>blazek at itc.it</a>
 before you start.
 
 <HR>
@@ -260,11 +260,11 @@
 </TABLE>
 
 <BR>
-<B>Y</B> : yes, updated <BR>
-<B>N</B> : no, not updated but necessary for 6.0.0 release <BR>
-<B>-</B> : no, not updated, irrelevant <BR>
-<B>X</B> : no, not updated and not expected to be updated for 6.0.0 release <BR>
-<B>?</B> : not sure if necessary for 6.0.0 release <BR>
+<b>Y</b> : yes, updated <BR>
+<b>N</b> : no, not updated but necessary for 6.0.0 release <BR>
+<b>-</b> : no, not updated, irrelevant <BR>
+<b>X</b> : no, not updated and not expected to be updated for 6.0.0 release <BR>
+<b>?</b> : not sure if necessary for 6.0.0 release <BR>
 
 </TABLE>
 

Modified: grass/branches/develbranch_6/doc/vector/vector.html
===================================================================
--- grass/branches/develbranch_6/doc/vector/vector.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/doc/vector/vector.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -2,26 +2,26 @@
 <TITLE>GRASS 5.7/6 Vector Format and API</TITLE>
 </HEAD>
 <BODY>
-<P>
+<p>
 <H1>GRASS 5.7/6 Vector Format and API</H1>
 
 The API is described in
-<P>
+<p>
 <a href="http://grass.itc.it/devel/index.php#prog">GRASS 6 Programmer's Manual</a>
-<P>
+<p>
 
 source code file:<br>
 lib/vector/vectorlib.dox
 
 <HR>
 
-<H2><A NAME="ascii">Vector ASCII Format Specification</A></H2>
-<P>
+<h2><A NAME="ascii">Vector ASCII Format Specification</a></h2>
+<p>
 
 <i>format notes here are outdated and to be merged into<br>
 vector/v.in.ascii/description.html</i>
 
-<P>
+<p>
 The ASCII format in the new version contains support for categories,
 z-coordinates, and the new types centroid, face, and kernel.
 Points and centroids are saved as one coordinate pair instead of two.
@@ -62,23 +62,23 @@
 [ FIELD CATEGORY]
 </PRE>
 
-Everything above in <B>[ ]</B> is optional.
+Everything above in <b>[ ]</b> is optional.
 Note the coordinate order in the old version (Y X) has been changed
 to (X Y [Z]).
 <BR><BR>
 
 TYPE may be:<BR>
 <ul>
-<li><B>P</B> point (dot) <BR> 
-<li><B>p</B> dead point (dead dot) <BR> 
-<li><B>L</B> line  <BR>
-<li><B>l</B> dead line <BR> 
-<li><B>B(A)</B> boundary  <BR>
-<li><B>b(a)</B> dead boundary  <BR>
-<li><B>C</B> centroid  <BR>
-<li><B>c</B> dead centroid  <BR>
-<li><B>F</B> face (3D boundary) <BR>
-<li><B>K</B> kernel (3D centroid) <BR>
+<li><b>P</b> point (dot) <BR> 
+<li><b>p</b> dead point (dead dot) <BR> 
+<li><b>L</b> line  <BR>
+<li><b>l</b> dead line <BR> 
+<li><b>B(A)</b> boundary  <BR>
+<li><b>b(a)</b> dead boundary  <BR>
+<li><b>C</b> centroid  <BR>
+<li><b>c</b> dead centroid  <BR>
+<li><b>F</b> face (3D boundary) <BR>
+<li><b>K</b> kernel (3D centroid) <BR>
 </ul>
 
 <BR>
@@ -95,11 +95,11 @@
 </PRE>
 
 <HR>
-<H2><A NAME="example">Vector module programming example</A></H2>
+<h2><A NAME="example">Vector module programming example</a></h2>
 
 <a href=v.example/>Vector module C programming example</a>
 
-<H2><A NAME="status">Vector module upgrade status</A></H2>
+<h2><A NAME="status">Vector module upgrade status</a></h2>
 
 <a href=v.modules.html>Vector upgrade status</a> (partially outdated)
 

Modified: grass/branches/develbranch_6/general/g.access/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.access/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.access/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,44 +1,44 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 This program allows the user to control access to the
 current mapset.  Normally, any user can read data from any
 GRASS mapset. But sometimes it is desirable to prohibit
-access to certain sensitive data. The <EM>g.access</EM>
+access to certain sensitive data. The <em>g.access</em>
 command allows a user to restrict read and execute access
-to the current mapset (see UNIX <EM>chmod</EM> command).
-<EM>g.access</EM> will not modify write access to the
+to the current mapset (see UNIX <em>chmod</em> command).
+<em>g.access</em> will not modify write access to the
 current mapset.
 
-<P>
+<p>
 
 The user may, for example, allow only users in the same
 UNIX group to read data files in the mapset, or restrict
 the mapset to personal use only.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 
-<P> Under GRASS, access to the mapset PERMANENT must be open to
+<p> Under GRASS, access to the mapset PERMANENT must be open to
 all users.  This is because GRASS looks for the user's default geographic
 region definition settings and the location TITLE in files that are stored
-under the PERMANENT mapset directory.  The <EM>g.access</EM> command,
+under the PERMANENT mapset directory.  The <em>g.access</em> command,
 therefore, will not allow you to restrict access to the PERMANENT mapset.
 
-<P>
-The <EM><A HREF="g.mapsets.html">g.mapsets</A></EM> command isn't smart
+<p>
+The <em><a href="g.mapsets.html">g.mapsets</a></em> command isn't smart
 enough to tell if access to a specified mapset is restricted, and the user
 is therefore allowed to include the names of restricted mapsets in his
 search path.  However, the data in a restricted mapset is still protected;
 any attempts to look for or use data in a restricted mapset will fail.  The
 user will simply not see any data listed for a restricted mapset.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-UNIX manual entries for <EM>chmod</EM> and <EM>group</EM> 
+UNIX manual entries for <em>chmod</em> and <em>group</em> 
 <BR>
-<EM><A HREF="g.mapsets.html">g.mapsets</A></EM> 
+<em><a href="g.mapsets.html">g.mapsets</a></em> 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro, 
 U.S. Army Construction Engineering Research Laboratory

Modified: grass/branches/develbranch_6/general/g.ask/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.ask/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.ask/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,16 +1,16 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>g.ask</EM> is designed for shell scripts that need to
+<em>g.ask</em> is designed for shell scripts that need to
 prompt the user for the name of a data base file in the
-user's current GRASS location.  After <EM>g.ask</EM> is
+user's current GRASS location.  After <em>g.ask</em> is
 invoked with needed parameters, it will query the user for
-a file name of the specified <EM>type</EM> and
-<EM>element</EM>.  After the user responds to this query,
+a file name of the specified <em>type</em> and
+<em>element</em>.  After the user responds to this query,
 the program will write four lines to the UNIX output file
-specified by <EM>unixfile</EM>.
+specified by <em>unixfile</em>.
 
 <!-- unused
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 <H3>Parameters:</H3>
 
@@ -18,32 +18,32 @@
 <DL>
 
 
-<DT><B>type=</B><EM>name</EM> 
+<DT><b>type=</b><em>name</em> 
 
-<DD>The type of query.  Options for <EM>name</EM> are 
-<EM>old</EM>, <EM>new</EM>,
-<EM>any</EM>, and <EM>mapset</EM>;  their functions are given below.
+<DD>The type of query.  Options for <em>name</em> are 
+<em>old</em>, <em>new</em>,
+<em>any</em>, and <em>mapset</em>;  their functions are given below.
 "New", "any", and "mapset" only look in the user's current mapset.
 
 <DL>
 <DD>
-<DT><B>old</B>
+<DT><b>old</b>
 <DD>For existing data files anywhere in the user's mapset search path.
 
-<DT><B>new</B> 
+<DT><b>new</b> 
 
 <DD>Used to create a new file in the current mapset, which must not
 already exist there (if a file with this name exists there,
 it will not be overwritten).
 
-<DT><B>any</B> 
+<DT><b>any</b> 
 
 <DD>Creates a file in the current mapset, which may or may not
 already exist there.  If a file with this name exists in the
 current mapset, it will be overwritten;
 if not, a new file with this name will be created.
 
-<DT><B>mapset</B> 
+<DT><b>mapset</b> 
 
 <DD>For files that must exist in the current mapset
 The shell write wants the name of a file which exists
@@ -51,25 +51,25 @@
 used instead of "old" if the file is to be modified.
 </DL>
 
-<DT><B>prompt=</B>"<EM>string</EM>" 
+<DT><b>prompt=</b>"<em>string</em>" 
 
 <DD>The prompt to be displayed to the user.  If more than
 one word, the prompt should be enclosed within double
 quotes ("").
 
-<DT><B>element=</B><EM>name</EM> 
+<DT><b>element=</b><em>name</em> 
 
 <DD>The name of the GRASS data base element (i.e.,
 directory under a GRASS mapset) whose files are to be
 queried.
 
-<DT><B>desc=</B>"<EM>string</EM>" 
+<DT><b>desc=</b>"<em>string</em>" 
 
 <DD>A short description of the data base element which is
 meaningful to the user.  If description contains more than
 one word, it should be enclosed within double quotes ("").
 
-<DT><B>unixfile=</B><EM>name</EM> 
+<DT><b>unixfile=</b><em>name</em> 
 
 <DD>The name of a UNIX file to store the user's response.
 See next section for what is written to this file and how
@@ -78,49 +78,49 @@
 </DL>
 -->
 
-<H2>OUTPUT</H2>
+<h2>OUTPUT</h2>
 
 Upon receiving the user's response to its request for a
-file name, <EM>g.ask</EM> writes four lines to the
-specified <EM>unixfile</EM>; this output file is placed in
+file name, <em>g.ask</em> writes four lines to the
+specified <em>unixfile</em>; this output file is placed in
 the user's current working directory, unless otherwise
 specified, and contains the following lines:
 
 
 <div class="code">
 <PRE>
-name='<EM>some_name</EM>'
-mapset='<EM>some_mapset</EM>'
-fullname='<EM>some_fullname</EM>'
-file='<EM>some_fullpath</EM>'
+name='<em>some_name</em>'
+mapset='<em>some_mapset</em>'
+fullname='<em>some_fullname</em>'
+file='<em>some_fullpath</em>'
 </pre></div>
 
-<P>
+<p>
 
-The output is <EM>/bin/sh</EM> commands to set the variable
-<EM>name</EM> to the file name specified by the user (of
-the <EM>element</EM> and <EM>type</EM> requested by
-<EM>g.ask</EM>), <EM>mapset</EM> to the GRASS mapset in
+The output is <em>/bin/sh</em> commands to set the variable
+<em>name</em> to the file name specified by the user (of
+the <em>element</em> and <em>type</em> requested by
+<em>g.ask</em>), <em>mapset</em> to the GRASS mapset in
 which this file resides (or will be created),
-<EM>fullname</EM> is the name with the mapset embedded in
-it, and <EM>file</EM> to the full UNIX path name
+<em>fullname</em> is the name with the mapset embedded in
+it, and <em>file</em> to the full UNIX path name
 identifying this file.  These variables may be set in the
-<EM>/bin/sh</EM> as follows:
+<em>/bin/sh</em> as follows:
 
 <DL>
 <DD>
-<B>. unixfile</B>
+<b>. unixfile</b>
 </DL>
 
 
-<P>
+<p>
 
 The . is a shell command which means read the
-<EM>unixfile</EM> and execute the commands found there.  It
-is NOT part of the <EM>unixfile</EM> name and MUST be
+<em>unixfile</em> and execute the commands found there.  It
+is NOT part of the <em>unixfile</em> name and MUST be
 followed by a space.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The user may choose to simply hit the return key and not enter a file name.
 If this happens the variables will be set as follows:
@@ -134,7 +134,7 @@
 file=
 </pre></div>
 
-<P>
+<p>
 
 The following is a way to test for this case:
 
@@ -146,15 +146,15 @@
 fi
 </PRE></div>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.ask.html">d.ask</A></EM>,
-<EM><A HREF="g.filename.html">g.filename</A></EM>,
-<EM><A HREF="g.findfile.html">g.findfile</A></EM>,
-<EM><A HREF="g.gisenv.html">g.gisenv</A></EM>,
-<EM><A HREF="g.parser.html">g.parser</A></EM>
+<em><a href="d.ask.html">d.ask</a></em>,
+<em><a href="g.filename.html">g.filename</a></em>,
+<em><a href="g.findfile.html">g.findfile</a></em>,
+<em><a href="g.gisenv.html">g.gisenv</a></em>,
+<em><a href="g.parser.html">g.parser</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro,
 U.S.Army Construction Engineering Research Laboratory

Modified: grass/branches/develbranch_6/general/g.dirseps/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.dirseps/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.dirseps/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,10 +1,10 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>g.dirseps</EM> is an internal tool only. It copies input string
+<em>g.dirseps</em> is an internal tool only. It copies input string
 to stdout, changing directory separator characters as specified by flags.
 It is used for interoperability between Unix and MS-Windows pathnames.
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Paul Kelly
 

Modified: grass/branches/develbranch_6/general/g.filename/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.filename/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.filename/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <em>g.filename</em> is designed for Bourne shell scripts that need to know 
 the full file name, including it's path, for mapset elements, like raster,
@@ -13,41 +13,41 @@
 deleted/renamed/copied for a given entity type.
 
 <!-- unused
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 <H3>Parameters:</H3>
 
 <DL>
-<DT><B>element=</B><EM>name</EM> 
+<DT><b>element=</b><em>name</em> 
 
 <DD>The name of a GRASS data base element (i.e., directory
 within the GRASS mapset location).
 
-<DT><B>mapset=</B><EM>name</EM> 
+<DT><b>mapset=</b><em>name</em> 
 
 <DD>The name of a GRASS data base mapset.  As a
 convenience, a single dot (.) can be used to designate the
 current mapset.
 
-<DT><B>file=</B><EM>name</EM> 
+<DT><b>file=</b><em>name</em> 
 
 <DD>The name of a GRASS data base file.
 </DL>
 -->
-<H2>OUTPUT</H2>
+<h2>OUTPUT</h2>
 
-<EM>g.filename</EM>
+<em>g.filename</em>
 writes one line to standard output:
 
 <DL>
 <DD>
-file='<EM>full_file_pathname'</EM>
+file='<em>full_file_pathname'</em>
 </DL>
 
-The output is a <EM>/bin/sh</EM> command to set the
-variable specified by the file <EM>name</EM> to the full
+The output is a <em>/bin/sh</em> command to set the
+variable specified by the file <em>name</em> to the full
 UNIX path name for the data base file.  This variable may
-be set in the <EM>/bin/sh</EM> as follows:
+be set in the <em>/bin/sh</em> as follows:
 
 <DL>
 <DD>
@@ -57,35 +57,35 @@
 </DL>
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 This routine generates the filename, but does not care if the file (or mapset
 or element) exists or not. This feature allows shell scripts to create new data
 base files as well as use existing ones.
 
-<P>
+<p>
 
-If the mapset is the current mapset, <EM>g.filename</EM>
-automatically creates the <EM>element</EM> specified if it
+If the mapset is the current mapset, <em>g.filename</em>
+automatically creates the <em>element</em> specified if it
 doesn't already exist.  This makes it easy to add new files
 to the data base without having to worry about the
 existence of the required data base directories.  (This
 program will not create a new mapset, however, if that
 specified does not currently exist.)
 
-<P>
+<p>
 The program exits with a 0 if everything is ok;  it exits
 with a non-zero value if there is an error, in which case
-file=<EM>'full_file_pathname'</EM> is not output.
+file=<em>'full_file_pathname'</em> is not output.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="g.ask.html">g.ask</A></EM><br>
-<EM><A HREF="g.findfile.html">g.findfile</A></EM><br>
-<EM><A HREF="g.gisenv.html">g.gisenv</A></EM><br>
-<EM><A HREF="parser.html">parser</A></EM>
+<em><a href="g.ask.html">g.ask</a></em><br>
+<em><a href="g.findfile.html">g.findfile</a></em><br>
+<em><a href="g.gisenv.html">g.gisenv</a></em><br>
+<em><a href="parser.html">parser</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro,
 U.S.Army Construction Engineering Research Laboratory

Modified: grass/branches/develbranch_6/general/g.findetc/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.findetc/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.findetc/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,26 +1,26 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>g.findetc</EM> is designed for Bourne shell scripts that need to search
+<em>g.findetc</em> is designed for Bourne shell scripts that need to search
 for support data, programs and subfoldrs in any number of directories as
 specified in GRASS_ADDON_ETC, plus the GRASS application etc/ directory. This
 is designed for addon scripts that are installed outside the GRASS application
 directory, such as a user's home or a system addon directory.
 <p>
 
-<H2>OUTPUT</H2>
+<h2>OUTPUT</h2>
 
-<EM>g.findetc</EM> writes the full path to the file or directory to standard output
+<em>g.findetc</em> writes the full path to the file or directory to standard output
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="g.ask.html">g.ask</A></EM><br>
-<EM><A HREF="g.filename.html">g.filename</A></EM><br>
-<EM><A HREF="g.findfile.html">g.findfile</A></EM><br>
-<EM><A HREF="g.gisenv.html">g.gisenv</A></EM><br>
-<EM><A HREF="g.mapsets.html">g.mapsets</A></EM><br>
-<EM><A HREF="parser.html">parser</A></EM>
+<em><a href="g.ask.html">g.ask</a></em><br>
+<em><a href="g.filename.html">g.filename</a></em><br>
+<em><a href="g.findfile.html">g.findfile</a></em><br>
+<em><a href="g.gisenv.html">g.gisenv</a></em><br>
+<em><a href="g.mapsets.html">g.mapsets</a></em><br>
+<em><a href="parser.html">parser</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 William Kyngesburye
 

Modified: grass/branches/develbranch_6/general/g.findfile/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.findfile/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.findfile/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,8 +1,8 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>g.findfile</EM> is designed for Bourne shell scripts that need to search
+<em>g.findfile</em> is designed for Bourne shell scripts that need to search
 for mapset <em>elements</em>, including: raster, vector maps, region
-definitions and <em><a HREF="i.group.html">imagery</a></em> groups.
+definitions and <em><a href="i.group.html">imagery</a></em> groups.
 <p>
 The list of <em>element</em> names to search for is not fixed; any
 subdirectory of the mapset directory is a valid <em>element</em> name.
@@ -13,62 +13,62 @@
 deleted/renamed/copied for a given entity type.
 
 <!-- unused
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 <H3>Parameters:</H3>
 
 <DL>
 
-<DT><B>element=</B><EM>name</EM> 
+<DT><b>element=</b><em>name</em> 
 
 <DD>The data base element (i.e., directory within a GRASS
 mapset) to be searched.
 
-<DT><B>mapset=</B><EM>name</EM> 
+<DT><b>mapset=</b><em>name</em> 
 
 <DD>The mapset in which to search for the specified file
-<EM>name</EM>.  If not specified, all mapsets in the user's
+<em>name</em>.  If not specified, all mapsets in the user's
 GRASS search path are searched.  Otherwise, the specified
 mapset is searched.  As a convenience, if specified as a
 single dot (.) only the current mapset is searched.
 
-<DT><B>file=</B><EM>name</EM> 
+<DT><b>file=</b><em>name</em> 
 
 <DD>The name of a GRASS data file (of the stated
-<EM>element</EM> type) for which to search.
+<em>element</em> type) for which to search.
 
 </DL>
 -->
 
-<H2>OUTPUT</H2>
+<h2>OUTPUT</h2>
 
-<EM>g.findfile</EM> writes four lines to standard output:
+<em>g.findfile</em> writes four lines to standard output:
 
 <div class="code"><pre>
-name='<EM>file_name</EM>'
-mapset='<EM>mapset_name</EM>'
-file='<EM>unix_filename</EM>'
-fullname='<EM>grass_fullname</EM>'
+name='<em>file_name</em>'
+mapset='<em>mapset_name</em>'
+file='<em>unix_filename</em>'
+fullname='<em>grass_fullname</em>'
 </pre></div>
 
 
-The output is <EM>/bin/sh</EM> commands to set the variable
-<EM>name</EM> to the GRASS data base file name,
-<EM>mapset</EM> to the mapset in which the file resides,
-and <EM>file</EM> to the full UNIX path name for the named
-file.  These variables may be set in the <EM>/bin/sh</EM>
+The output is <em>/bin/sh</em> commands to set the variable
+<em>name</em> to the GRASS data base file name,
+<em>mapset</em> to the mapset in which the file resides,
+and <em>file</em> to the full UNIX path name for the named
+file.  These variables may be set in the <em>/bin/sh</em>
 as follows:
 
 <div class="code"><pre>
 eval `g.findfile element=name mapset=name file=name`
 </pre></div>
-<P>
+<p>
 For example (raster map):
 <div class="code"><pre>
 eval `g.findfile element=cell file=mymap`
 </pre></div>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 If the specified file does not exist, the variables will be set as follows:
 
@@ -92,15 +92,15 @@
 
 Note that region files are searched as <em>element=windows</em>.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="g.ask.html">g.ask</A></EM><br>
-<EM><A HREF="g.filename.html">g.filename</A></EM><br>
-<EM><A HREF="g.gisenv.html">g.gisenv</A></EM><br>
-<EM><A HREF="g.mapsets.html">g.mapsets</A></EM><br>
-<EM><A HREF="parser.html">parser</A></EM>
+<em><a href="g.ask.html">g.ask</a></em><br>
+<em><a href="g.filename.html">g.filename</a></em><br>
+<em><a href="g.gisenv.html">g.gisenv</a></em><br>
+<em><a href="g.mapsets.html">g.mapsets</a></em><br>
+<em><a href="parser.html">parser</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro,
 U.S.Army Construction Engineering Research Laboratory

Modified: grass/branches/develbranch_6/general/g.mapset/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.mapset/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.mapset/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -15,8 +15,8 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="g.gisenv.html">g.gisenv</a></em><br>
-<em><a HREF="g.mapsets.html">g.mapsets</a></em><br>
+<em><a href="g.gisenv.html">g.gisenv</a></em><br>
+<em><a href="g.mapsets.html">g.mapsets</a></em><br>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/general/g.mapsets/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.mapsets/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.mapsets/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,7 +1,7 @@
 <h2>DESCRIPTION</h2>
 
 For basic information about Grass <em>mapset</em>, <em>location</em>
-and <em>data base</em> refer to <a HREF="helptext.html">GRASS Quickstart</a>.
+and <em>data base</em> refer to <a href="helptext.html">GRASS Quickstart</a>.
 
 <p>
 A <em>mapset</em> holds a distinct set of data layers,
@@ -53,7 +53,7 @@
 <p>
 When the user specifies the name of a data base element file
 (e.g., a particular vector map, raster map, 
-<a HREF="i.group.html">imagery</a> group file, etc.)
+<a href="i.group.html">imagery</a> group file, etc.)
 to a GRASS program, the program searches for the named file
 under each of the mapsets listed in the user's mapset search path
 in the order listed there until the program finds a file
@@ -63,7 +63,7 @@
 
 
 <div class="code"><pre>
-<b><a HREF="g.copy.html">g.copy</a> rast=</b><em>'soils.file at PERMANENT',my.soils</em>
+<b><a href="g.copy.html">g.copy</a> rast=</b><em>'soils.file at PERMANENT',my.soils</em>
 </pre></div>
 
 
@@ -109,7 +109,7 @@
 Users can restrict others' access to their mapset files
 through use of the GRASS program
 
-<em><a HREF="g.access.html">g.access</a></em>.  
+<em><a href="g.access.html">g.access</a></em>.  
 
 Mapsets to which access is restricted can still be listed
 in another's mapset search path; however, access to these
@@ -118,11 +118,11 @@
 <h2>SEE ALSO</h2>
 
 <em>
-  <a HREF="g.access.html">g.access</a>,
-  <a HREF="g.copy.html">g.copy</a>,
-  <a HREF="g.gisenv.html">g.gisenv</a>,
-  <a HREF="g.list.html">g.list</a>,
-  <a HREF="g.mapset.html">g.mapset</a>
+  <a href="g.access.html">g.access</a>,
+  <a href="g.copy.html">g.copy</a>,
+  <a href="g.gisenv.html">g.gisenv</a>,
+  <a href="g.list.html">g.list</a>,
+  <a href="g.mapset.html">g.mapset</a>
 </em>
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/general/g.message/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.message/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.message/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -18,31 +18,31 @@
 
 Messages containing "<tt>=</tt>" must use the full <b>message=</b> syntax so
 the parser doesn't get confused.
-<P>
+<p>
 If you want a long message (multi-line) to be dealt with as a single
 paragraph, use a single call to <em>g.message</em> with text split in the
 script using the backslash as the last character. (In shell scripts don't
 close the "quote")
-<P>
+<p>
 A blank line may be obtained with: <tt>g.message ""</tt>
-<P>
+<p>
 Redundant whitespace will be stripped away.
-<P>
+<p>
 It's advisable to single quote the messages that are to be printed literally.
 It prevents a number of characters (most notably, space and the dollar sign
 '<tt>$</tt>') from being treated specifically by the Shell.
-<P>
+<p>
 When it is necessary to include, for example, a variable's value as part of
 the message, the double quotes may be used, which do not deprive the
 dollar sign of its special variable-expansion powers.
-<P>
+<p>
 While it is known that the interactive Bash instances may treat the
 exclamation mark '<tt>!</tt>' character specifically (making single quoting
 of it necessary), it shouldn't be the case for the non-interactive
 instances of Bash. None the less, to avoid context-based confusion later on
 you are enouraged to single-quote messages that do not require
 <tt>$VARIABLE</tt> expansion.
-<P>
+<p>
 
 <h3>VERBOSITY LEVELS</h3>
 Controlled by the "<tt>GRASS_VERBOSE</tt>" environment variable. Typically this

Modified: grass/branches/develbranch_6/general/g.mkfontcap/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.mkfontcap/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.mkfontcap/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,7 +1,7 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <p>
-<EM>g.mkfontcap</EM> is a utilty to generate a GRASS font configuration file
+<em>g.mkfontcap</em> is a utilty to generate a GRASS font configuration file
 ("fontcap") containing details of the fonts available on the current system.
 If <a href="http://freetype.sourceforge.net/">Freetype</a> is not installed,
 the font list will be limited to the set of Hershey stroke fonts supplied
@@ -46,11 +46,11 @@
 The output list of fonts is sorted first by type (Stroke fonts first,
 followed by Freetype) and within each type by the short name of the font.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
  
-<EM><a href="d.font.html">d.font</a></EM>
+<em><a href="d.font.html">d.font</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Paul Kelly
 

Modified: grass/branches/develbranch_6/general/g.mremove/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.mremove/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.mremove/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -14,7 +14,7 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="g.remove.html">g.remove</a></em>
+<em><a href="g.remove.html">g.remove</a></em>
 <p>
 <a href="http://en.wikipedia.org/wiki/Regular_expression">Regular expression</a> (from Wikipedia, the free encyclopedia)
 

Modified: grass/branches/develbranch_6/general/g.parser/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.parser/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.parser/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -408,12 +408,12 @@
 <h2>SEE ALSO</h2>
 
 <em>
-  <a HREF="d.ask.html">d.ask</a>,
-  <a HREF="d.menu.html">d.menu</a>,
-  <a HREF="g.ask.html">g.ask</a>,
-  <a HREF="g.filename.html">g.filename</a>,
-  <a HREF="g.findfile.html">g.findfile</a>,
-  <a HREF="g.tempfile.html">g.tempfile</a>,
+  <a href="d.ask.html">d.ask</a>,
+  <a href="d.menu.html">d.menu</a>,
+  <a href="g.ask.html">g.ask</a>,
+  <a href="g.filename.html">g.filename</a>,
+  <a href="g.findfile.html">g.findfile</a>,
+  <a href="g.tempfile.html">g.tempfile</a>,
 </em>
 
 and the <tt>SUBMITTING_SCRIPTS</tt> file in the GRASS source code.

Modified: grass/branches/develbranch_6/general/g.pnmcomp/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.pnmcomp/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.pnmcomp/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 (culled from the mailing list)
 <BR>
@@ -36,7 +36,7 @@
 the existence of g.pnmcomp.
 </pre>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 Glynn Clements
 
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/general/g.proj/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.proj/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.proj/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,13 +1,13 @@
 <h2>DESCRIPTION</h2>
 
-<P><em>g.proj</em> provides a means of converting a co-ordinate system
+<p><em>g.proj</em> provides a means of converting a co-ordinate system
 description (i.e. projection information) between various formats.
-It requires <A HREF="http://www.gdal.org/ogr/">OGR</A> to compile. The basic
+It requires <a href="http://www.gdal.org/ogr/">OGR</a> to compile. The basic
 functionality of the module is to report the projection information for the
 current location, either in conventional GRASS (-p flag) or PROJ.4 (-j flag) 
 format.</P>
 
-<P>Projection information may also be output in the Well-Known Text (WKT) 
+<p>Projection information may also be output in the Well-Known Text (WKT) 
 format popularised
 by proprietary GIS. In addition, if one of the parameters <em>georef</em>, 
 <em>wkt</em>, <em>proj4</em> or <em>epsg</em> is specified, rather than the 
@@ -28,7 +28,7 @@
 
 <dt>proj4=<em>description</em> or <em>-</em></dt>
 <dd><em>description</em> should be a projection description in 
-<A HREF="http://remotesensing.org/proj/">PROJ.4</a> format, enclosed in
+<a href="http://remotesensing.org/proj/">PROJ.4</a> format, enclosed in
 quotation marks if there are any spaces. If <em>-</em> is given for
 <em>description</em>, the PROJ.4 description will be read from stdin rather 
 than as a directly-supplied command-line parameter.</dd>
@@ -42,13 +42,13 @@
 revisions of the EPSG database.</dd>
 </dl>
 
-<P>The -p, -j, -w, etc. flags are all functional when importing projection
+<p>The -p, -j, -w, etc. flags are all functional when importing projection
 information from an external source, meaning that <em>g.proj</em> can be
 used to convert between representations of the information. It is
 <strong>not</strong> required that either the input or output be in GRASS
 format.
 
-<P>In addition however, if the -c flag is specified, <em>g.proj</em> will 
+<p>In addition however, if the -c flag is specified, <em>g.proj</em> will 
 create new GRASS projection files (PROJ_INFO, PROJ_UNITS, WIND and 
 DEFAULT_WIND) based on the imported information. If the <em>location</em> 
 parameter is specified in addition to -c, then a new location will be created. 
@@ -56,14 +56,14 @@
 overwritten. The program will warn before doing this only if command-line
 interactive mode (<em>-i</em> flag) is selected.</P>
 
-<P>The final mode of operation of g.proj is to report on the datum
+<p>The final mode of operation of g.proj is to report on the datum
 information and datum transformation parameters associated with the
 co-ordinate system. The -d flag will report a human-readable summary of
 this.</P>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-<P>If the input co-ordinate system contains a datum name but no
+<p>If the input co-ordinate system contains a datum name but no
 transformation parameters, and there is more than one suitable parameter set
 available (according to the files datum.table and datumtransform.table in
 ${GISBASE}/etc), g.proj will check the value of the <em>datumtrans</em>
@@ -85,18 +85,18 @@
 <strong>even if</strong> a valid parameter set is already specified in the 
 input co-ordinate system.</P>
 
-<P>Output is simply based on the input projection information. g.proj does 
+<p>Output is simply based on the input projection information. g.proj does 
 <strong>not</strong> attempt to verify that the co-ordinate system thus 
 described matches an existing system in use in the world. In particular,
 this means there are no EPSG Authority codes in the WKT output.</P>
 
-<P>WKT format shows the false eastings and northings in the projected unit
+<p>WKT format shows the false eastings and northings in the projected unit
 (e.g. meters, feet) but in PROJ format it should always be given in meters.</P>
 
-<P>The maximum size of input WKT or PROJ.4 projection descriptions is
+<p>The maximum size of input WKT or PROJ.4 projection descriptions is
 limited to 8000 bytes.</P>
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 Print the projection information for the current location:<br>
 
@@ -193,25 +193,25 @@
 </pre></div>
 
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <a href="http://proj.maptools.org">PROJ 4</a>: Projection/datum support library<br>
 <a href="http://www.gdal.org">GDAL raster library and toolset</a><br>
 <a href="http://www.gdal.org/ogr/">OGR vector library and toolset</a>
 
-<P>
-<B>Further reading</B>
+<p>
+<b>Further reading</b>
 <ul>
 <li> <a href="http://www.asprs.org/resources/grids/">ASPRS Grids and Datum</a>
 <li> <a href="http://www.mapref.org">MapRef - The Collection of Map Projections and Reference Systems for Europe</a>
 <li> <a href="http://www.remotesensing.org/geotiff/proj_list/">Projections Transform List</a> (PROJ4)
 </ul>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
  
-<EM><a href="g.setproj.html">g.setproj</a></EM><BR>
-<EM><a href="r.in.gdal.html">r.in.gdal</a></EM><BR>
-<EM><a href="v.in.ogr.html">v.in.ogr</a></EM>
+<em><a href="g.setproj.html">g.setproj</a></em><BR>
+<em><a href="r.in.gdal.html">r.in.gdal</a></em><BR>
+<em><a href="v.in.ogr.html">v.in.ogr</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/general/g.region/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.region/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.region/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -43,7 +43,7 @@
 resolutions need not be the same, thus allowing non-square
 data cells to exist.
 
-<P>
+<p>
 Typically all raster and display modules are affected by the current
 region settings, but not vector modules.
 Some special modules diverge from this rule, for example raster import
@@ -123,7 +123,7 @@
 The <b>-p</b> (or <b>-g</b>) option is recognized
 last.  This means that all changes are applied to the
 region settings before printing occurs.
-<P>
+<p>
 The <b>-g</b> flag prints the current region settings in shell script style.
 This format can be given back to <em>g.region</em> on its command line.
 This may also be used to save region settings as shell environment variables
@@ -478,12 +478,12 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="d.zoom.html">d.zoom</a><br>
-<a HREF="g.access.html">g.access</a><br>
-<a HREF="g.mapsets.html">g.mapsets</a><br>
-<a HREF="g.proj.html">g.proj</a><BR>
-<a HREF="g.setproj.html">g.setproj</a><BR>
-environment variables: <a HREF="variables.html#internal">GRASS_REGION and WIND_OVERRIDE</a>
+<a href="d.zoom.html">d.zoom</a><br>
+<a href="g.access.html">g.access</a><br>
+<a href="g.mapsets.html">g.mapsets</a><br>
+<a href="g.proj.html">g.proj</a><BR>
+<a href="g.setproj.html">g.setproj</a><BR>
+environment variables: <a href="variables.html#internal">GRASS_REGION and WIND_OVERRIDE</a>
 </em>
 
 

Modified: grass/branches/develbranch_6/general/g.setproj/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.setproj/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.setproj/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,55 +1,55 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 Allows a user to create a PROJ_INFO file in the PERMANENT mapset of the 
 current location. PROJ_INFO file is used to record the projection information 
 associated with the specified mapset. 
 
-<H2>NOTES</H2> 
+<h2>NOTES</h2> 
 
-The user running <EM>g.setproj</EM> must own the PERMANENT 
+The user running <em>g.setproj</em> must own the PERMANENT 
 mapset and it must be currently selected.
-It is highly recommended to run <EM>g.setproj</EM> after
+It is highly recommended to run <em>g.setproj</em> after
 creating a new location so that conversion programs (such
-as <EM>v.proj</EM>) can be run.
+as <em>v.proj</em>) can be run.
 
-<P>The user will be prompted for the projection name. 
+<p>The user will be prompted for the projection name. 
 Most projections are supported. The 
-<A HREF="http://proj.maptools.org/">PROJ.4</A> abbreviations for the names are
+<a href="http://proj.maptools.org/">PROJ.4</a> abbreviations for the names are
 used with two exceptions, viz. 'll', for latitude / longitude geographic
 co-ordinates, and 'stp', for the State Plane Co-ordinate system (used in the
 USA).</P>
 
-<P>After the projection name, the user will be asked for a geodetic datum. If 
+<p>After the projection name, the user will be asked for a geodetic datum. If 
 no datum transformation support is needed, the question may be answered with no,
 and no datum will be specified in the PROJ_INFO file. If this is the case
 the user must specify the ellipsoid (model of the curvature of the earth) to
 be used, otherwise it is determined by the datum being used.</P>
 
-<P>If the datum or ellipsoid required are not 
+<p>If the datum or ellipsoid required are not 
 listed within this program, the user/administrator may add the definition 
 to the files datum.table, datumtransform.table and ellipse.table in the
 $GISBASE/etc/ directory.</P>
 
-<P>Depending on the projection selected, the user will then be prompted for
+<p>Depending on the projection selected, the user will then be prompted for
 the various other parameters required to define it.</P>
 
-<P>
+<p>
 
 The projections of aea, lcc, merc, leae, leac, and 
 tmerc will generate a request to the user for the prime meridian and standard 
 parallel for the output map. 
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="g.proj.html">g.proj</A></EM>,
-<EM><A HREF="m.proj.html">m.proj</A></EM>,
-<EM><A HREF="r.proj.html">r.proj</A></EM>,
-<EM><A HREF="v.proj.html">v.proj</A></EM>,
-<EM><A HREF="http://proj.maptools.org">PROJ.4</A></EM>
+<em><a href="g.proj.html">g.proj</a></em>,
+<em><a href="m.proj.html">m.proj</a></em>,
+<em><a href="r.proj.html">r.proj</a></em>,
+<em><a href="v.proj.html">v.proj</a></em>,
+<em><a href="http://proj.maptools.org">PROJ.4</a></em>
 
-<P>
-<B>Further reading</B>
+<p>
+<b>Further reading</b>
 <ul>
 <li> A guide to <a href="http://erg.usgs.gov/isb/pubs/MapProjections/projections.html">Map Projections</a> by USGS
 <li> <a href="http://www.asprs.org/resources/grids/">ASPRS Grids and Datum</a>
@@ -57,7 +57,7 @@
 <li> <a href="http://www.remotesensing.org/geotiff/proj_list/">Projections Transform List</a> (PROJ4)
 </ul>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Irina Kosinovsky, 
 U.S. Army Construction Engineering 

Modified: grass/branches/develbranch_6/general/g.tempfile/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.tempfile/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.tempfile/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>g.tempfile</EM>
+<em>g.tempfile</em>
 is designed for shell scripts that need to use large temporary files. 
 GRASS provides a mechanism for temporary files that does not depend on 
 /tmp. GRASS temporary files are created in the data base with the assumption 
@@ -8,17 +8,17 @@
 GRASS periodically removes temporary files that have been left behind 
 by programs that failed to remove them before terminating. 
 
-<P>
+<p>
 
-<EM>g.tempfile</EM>
+<em>g.tempfile</em>
 creates an unique file and prints the name. The user is required to provide 
 a process-id which will be used as part of the name of the file. 
 Most Unix shells provide a way to get the process id of the current shell. 
 For /bin/sh and /bin/csh this is $$. 
 It is recommended that $$ be specified as the process-id for 
-<EM>g.tempfile</EM>.
+<em>g.tempfile</em>.
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 For /bin/sh scripts the following syntax should be used: 
 <div class="code"><PRE>
@@ -31,20 +31,20 @@
 set temp2=`g.tempfile pid=$$`
 </PRE></div>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-Each call to <EM>g.tempfile</EM>
+Each call to <em>g.tempfile</em>
 creates a different (i.e. unique) name. 
 
 Although GRASS does eventually get around to removing
 tempfiles that have been left behind, the programmer should
 make every effort to remove these files. They often get
 large and take up disk space. If you write /bin/sh scripts,
-learn to use the /bin/sh <EM>trap</EM> command. If you
+learn to use the /bin/sh <em>trap</em> command. If you
 write /bin/csh scripts, learn to use the /bin/csh
-<EM>onintr</EM> command.
+<em>onintr</em> command.
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro, 
 U.S. Army Construction Engineering 

Modified: grass/branches/develbranch_6/general/g.transform/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.transform/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.transform/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,10 +1,10 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>g.transform</EM> is an utility to compute transformation
+<em>g.transform</em> is an utility to compute transformation
 based upon GCPs and output error measurements.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 For coordinates given with the <b>coords</b> file option or fed from
 <tt>stdin</tt>, the input format is "x y" with one coordinate pair per
@@ -54,12 +54,12 @@
 the higher coefficients equal to zero.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="i.rectify.html">i.rectify</A></EM>
+<em><a href="i.rectify.html">i.rectify</a></em>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 Brian J. Buckley<br>
 Glynn Clements<br>

Modified: grass/branches/develbranch_6/general/g.version/description.html
===================================================================
--- grass/branches/develbranch_6/general/g.version/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/general/g.version/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,16 +1,16 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>g.version</EM>
+<em>g.version</em>
 prints to standard output the GRASS version number, date,
 the GRASS copyright and GRASS build information.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 This program requires no command line arguments; the user simply types 
-<B>g.version</B> on the command line to see the version number and date 
+<b>g.version</b> on the command line to see the version number and date 
 of the GRASS software currently being run by the user. 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro, 
 U.S. Army Construction Engineering 

Modified: grass/branches/develbranch_6/imagery/i.cca/description.html
===================================================================
--- grass/branches/develbranch_6/imagery/i.cca/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/imagery/i.cca/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,7 +1,7 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<B>i.cca</B> is an image processing program that takes from two to eight
+<b>i.cca</b> is an image processing program that takes from two to eight
 (raster) band files and a signature file, and outputs the same number of
 raster band files transformed to provide maximum separability of the
 categories indicated by the signatures.  This implementation of the
@@ -10,17 +10,17 @@
 processing system</a>. CCA is also known as "Canonical components
 transformation".
 
-<P>
+<p>
 
 Typically the user will use the 
-<EM><A HREF="i.class.html">i.class</A></EM> 
+<em><a href="i.class.html">i.class</a></em> 
 program to collect a set of signatures and then pass those
 signatures along with the raster band files to
-<EM>i.cca</EM>.  The raster band file names are specified
+<em>i.cca</em>.  The raster band file names are specified
 on the command line by giving the group and subgroup that
 were used to collect the signatures.
 
-<P>
+<p>
 
 The output raster map names are built by appending a ".1",
 ".2", etc. to the output raster map name specified on the
@@ -30,47 +30,47 @@
 
 <DL>
 
-<DT><B>group=</B><EM>name</EM> 
+<DT><b>group=</b><em>name</em> 
 
-<DD>Name of the <A HREF="i.group.html">imagery</A> group
+<DD>Name of the <a href="i.group.html">imagery</a> group
 to which the 2 to 8 raster band files used belong.
 
-<DT><B>subgroup=</B><EM>name</EM> 
+<DT><b>subgroup=</b><em>name</em> 
 
-<DD>Name of the <A HREF="i.group.html">imagery</A>
+<DD>Name of the <a href="i.group.html">imagery</a>
 subgroup to which the 2 to 8 raster band files used
 belong.
 
-<DT><B>signature=</B><EM>name</EM> 
+<DT><b>signature=</b><em>name</em> 
 
 <DD>Name of an ASCII file containing spectral signatures.
 
-<DT><B>output=</B><EM>name</EM> 
+<DT><b>output=</b><em>name</em> 
 
 <DD>Output raster map prefix name.  The output raster map
 layer names are built by appending a ".1", ".2", etc. onto
-the <EM>output</EM> name specified by the user.
+the <em>output</em> name specified by the user.
 
 </DL>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-<EM>i.cca</EM> respects the current geographic region definition
+<em>i.cca</em> respects the current geographic region definition
 and the current mask setting while performing the transformation.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-Schowengerdt, Robert A.  <B>Techniques for Image Processing and
-Classification in Remote Sensing</B>,  Academic Press, 1983.
+Schowengerdt, Robert A.  <b>Techniques for Image Processing and
+Classification in Remote Sensing</b>,  Academic Press, 1983.
 
-<P>
+<p>
 
-<EM><A HREF="i.class.html">i.class</A></EM><br>
-<EM><A HREF="i.pca.html">i.pca</A></EM><br>
-<EM><A HREF="r.covar.html">r.covar</A></EM><br>
-<EM><A HREF="r.mapcalc.html">r.mapcalc</A></EM>
+<em><a href="i.class.html">i.class</a></em><br>
+<em><a href="i.pca.html">i.pca</a></em><br>
+<em><a href="r.covar.html">r.covar</a></em><br>
+<em><a href="r.mapcalc.html">r.mapcalc</a></em>
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 David Satnik, GIS Laboratory, 
 Central Washington University

Modified: grass/branches/develbranch_6/imagery/i.fft/description.html
===================================================================
--- grass/branches/develbranch_6/imagery/i.fft/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/imagery/i.fft/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,27 +1,27 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>i.fft</EM> is an image processing program based on the FFT algorithm
+<em>i.fft</em> is an image processing program based on the FFT algorithm
 given by Frigo et al. (1998), that processes a single input raster map layer
-(<B>input_image</B>) and constructs the real and imaginary Fourier
+(<b>input_image</b>) and constructs the real and imaginary Fourier
 components in frequency space.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The real and imaginary components are stored as arrays of
-doubles in the <EM>cell_misc</EM> directory (for use in the
+doubles in the <em>cell_misc</em> directory (for use in the
 inverse transform program,
 
-<EM><A HREF="i.ifft.html">i.ifft</A></EM>),
+<em><a href="i.ifft.html">i.ifft</a></em>),
 
 and are also scaled and formatted into the
-<B>real_image</B> and <B>imaginary_image</B> raster map
+<b>real_image</b> and <b>imaginary_image</b> raster map
 layers for inspection, masking, etc.  In these raster map
 layers the low frequency components are in the center and
 the high frequency components are toward the edges.  The
-<B>input_image</B> need not be square;  before
+<b>input_image</b> need not be square;  before
 processing, the X and Y dimensions of the
-<B>input_image</B> are padded with zeroes to the next
+<b>input_image</b> are padded with zeroes to the next
 highest power of two in extent (i.e., 256 x 256 is
 processed at that size, but 200 x 400 is padded to 256 x
 512).  The cell category values for viewing, etc., are
@@ -30,7 +30,7 @@
 on the command line, as suggested by Richards (1986).  A
 color table is assigned to the resultant map layer.
 
-<P>
+<p>
 The current geographic region and mask settings are
 respected when reading the input file.  The presence of a
 mask will, in general, make the resulting fast Fourier
@@ -55,25 +55,25 @@
 
 <ul>
 <li> M. Frigo and S. G. Johnson (1998): "FFTW: An Adaptive Software Architecture
-for the FFT". See <a href=>www.FFTW.org</a>: FFTW is a C subroutine library
+for the FFT". See <a href="http://www.fftw.org">www.FFTW.org</a>: FFTW is a C subroutine library
 for computing the Discrete Fourier Transform (DFT) in one or more
 dimensions, of both real and complex data, and of arbitrary input size.
 
 <li> John A. Richards, 1986. Remote Sensing Digital Image Analysis, Springer-Verlag.
 </ul>
 
-<P>
+<p>
 Personal communication, between progam author and Ali R. Vali,
 Space Research Center, <A HREF="http://www.utexas.edu">University of Texas</A>, Austin, 1990.
 
-<P>
+<p>
 
-<EM><A HREF="i.cca.html">i.cca</A></EM><br>
-<EM><A HREF="i.class.html">i.class</A></EM><br>
-<EM><A HREF="i.ifft.html">i.ifft</A></EM><br>
-<EM><A HREF="i.pca.html">i.pca</A></EM>
+<em><a href="i.cca.html">i.cca</a></em><br>
+<em><a href="i.class.html">i.class</a></em><br>
+<em><a href="i.ifft.html">i.ifft</a></em><br>
+<em><a href="i.pca.html">i.pca</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 David Satnik, GIS Laboratory, 
 Central Washington University

Modified: grass/branches/develbranch_6/imagery/i.gensig/description.html
===================================================================
--- grass/branches/develbranch_6/imagery/i.gensig/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/imagery/i.gensig/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,104 +1,104 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>i.gensig</EM>
+<em>i.gensig</em>
 is a non-interactive method for generating input into 
-<EM><A HREF="i.maxlik.html">i.maxlik</A></EM>.
+<em><a href="i.maxlik.html">i.maxlik</a></em>.
 It can be used as the first pass in the GRASS two-pass 
 classification process (instead of 
-<EM><A HREF="i.cluster.html">i.cluster</A></EM>
+<em><a href="i.cluster.html">i.cluster</a></em>
  or 
-<EM><A HREF="i.class.html">i.class</A></EM>).
+<em><a href="i.class.html">i.class</a></em>).
 
 It reads a raster map layer, called the training map, which
 has some of the pixels or regions already classified.
-<EM>i.gensig</EM> will then extract spectral signatures
+<em>i.gensig</em> will then extract spectral signatures
 from an image based on the classification of the pixels in
 the training map and make these signatures available to
 
-<EM><A HREF="i.maxlik.html">i.maxlik</A></EM>.
+<em><a href="i.maxlik.html">i.maxlik</a></em>.
 
 
-<P>
+<p>
 
 The user would then execute the GRASS program 
-<EM><A HREF="i.maxlik.html">i.maxlik</A></EM>
+<em><a href="i.maxlik.html">i.maxlik</a></em>
 to actually create the final classified map.
 
 
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 <H3>Parameters</H3>
 
 <DL>
 
-<DT><B>trainingmap=</B><EM>name</EM>
+<DT><b>trainingmap=</b><em>name</em>
 
 <DD>ground truth training map
 
-<P>
+<p>
 
 This map must be prepared by the user in advance. Programs like
-<EM><A HREF="v.digit.html">v.digit</A></EM> or <EM>
-<A HREF="r.digit.html">r.digit</A></EM> can be 
+<em><a href="v.digit.html">v.digit</a></em> or <em>
+<a href="r.digit.html">r.digit</a></em> can be 
 used to define representative
 areas of the classes the user defines to be in the image. 
 Of course other methods could be devised by the user for creating
-this training map - <EM>i.gensig</EM> makes no assumption about the origin
+this training map - <em>i.gensig</em> makes no assumption about the origin
 of this map layer. It simply creates signatures for the classes defined
 in the training map for the image to be classified (the image is
 specified in other options - see below).
 
-<DT><B>group=</B><EM>name</EM> 
+<DT><b>group=</b><em>name</em> 
 
 <DD>imagery group
 
-<P>
+<p>
 
 This is the name of the group that contains the band files
-which comprise the image to be analyzed. The <EM>
-<A HREF="i.group.html">i.group</A> </EM> command is
+which comprise the image to be analyzed. The <em>
+<a href="i.group.html">i.group</a> </em> command is
 used to construct groups of raster layers which comprise an
 image.
 
 
-<P>
+<p>
 
-<A NAME="subgroup"><DT><B>subgroup=</B><EM>name</EM></A>
+<A NAME="subgroup"><DT><b>subgroup=</b><em>name</em></a>
 
 <DD>subgroup containing image files
 
-<P>
+<p>
 
 This names the subgroup within the group that selects a
-subset of the bands to be analyzed. The <EM>
-<A HREF="i.group.html">i.group</A> </EM> command is
+subset of the bands to be analyzed. The <em>
+<a href="i.group.html">i.group</a> </em> command is
 also used to prepare this subgroup.  The subgroup mechanism
 allows the user to select a subset of all the band files
 that form an image.
 
 
-<DT><B>signaturefile=</B><EM>name</EM> 
+<DT><b>signaturefile=</b><em>name</em> 
 
 <DD>resultant signature file
 
-<P>
+<p>
 
 This is the resultant signature file (containing the means
 and covariance matrices) for each class in the training map
 that is associated with the band files in the subgroup
-select (see <A HREF="#subgroup">above</A>).
+select (see <a href="#subgroup">above</a>).
 
 </DL>
 
-<H2>INTERACTIVE MODE</H2>
+<h2>INTERACTIVE MODE</h2>
 
 If none of the arguments are specified on the command line, 
-<EM>i.gensig</EM>
+<em>i.gensig</em>
 will interactively prompt for the names of these maps and files.
 
 
-<P>
+<p>
 
 It should be noted that interactive mode here only means
 interactive prompting for maps and files.
@@ -106,32 +106,32 @@
 result from the process.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="i.group.html">i.group</A></EM>
+<em><a href="i.group.html">i.group</a></em>
 for creating groups and subgroups.
 
-<P>
+<p>
 
-<EM><A HREF="v.digit.html">v.digit</A></EM>
+<em><a href="v.digit.html">v.digit</a></em>
 and
-<EM><A HREF="r.digit.html">r.digit</A></EM>
+<em><a href="r.digit.html">r.digit</a></em>
 for interactively  creating the training map.
 
-<P>
+<p>
 
-<EM><A HREF="i.cluster.html">i.cluster</A></EM>
+<em><a href="i.cluster.html">i.cluster</a></em>
 for unsupervised clustering as an alternative to 
-<EM>i.gensig</EM> to create signatures.
+<em>i.gensig</em> to create signatures.
 
 
-<P>
+<p>
 
-<EM><A HREF="i.class.html">i.class</A></EM>
+<em><a href="i.class.html">i.class</a></em>
 for a graphic/interactive as an alternative to 
-<EM>i.gensig</EM> to create signatures.
+<em>i.gensig</em> to create signatures.
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro,
 U.S.Army Construction Engineering Research Laboratory

Modified: grass/branches/develbranch_6/imagery/i.gensigset/description.html
===================================================================
--- grass/branches/develbranch_6/imagery/i.gensigset/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/imagery/i.gensigset/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,40 +1,40 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>i.gensigset</EM>
+<em>i.gensigset</em>
 is a non-interactive method for generating input into
 
-<EM><A HREF="i.smap.html">i.smap</A>.</EM>
+<em><a href="i.smap.html">i.smap</a>.</em>
 
 It is used as the first pass in the a two-pass
 classification process.  It reads a raster map layer,
 called the training map, which has some of the pixels or
-regions already classified.  <EM>i.gensigset</EM> will then
+regions already classified.  <em>i.gensigset</em> will then
 extract spectral signatures from an image based on the
 classification of the pixels in the training map and make
 these signatures available to
 
-<EM><A HREF="i.smap.html">i.smap</A>.</EM>
+<em><a href="i.smap.html">i.smap</a>.</em>
 
 
-<P>
+<p>
 
-The user would then execute the GRASS program <EM>
-<A HREF="i.smap.html">i.smap</A></EM> to create the
+The user would then execute the GRASS program <em>
+<a href="i.smap.html">i.smap</a></em> to create the
 final classified map.
 
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 <H3>Parameters</H3>
 
 <DL>
 
-<DT><B>trainingmap=</B><EM>name</EM> 
+<DT><b>trainingmap=</b><em>name</em> 
 
 <DD>ground truth training map
 
 
-<P>
+<p>
 
 This raster layer, supplied as input by the user, has some
 of its pixels already classified, and the rest (probably
@@ -42,77 +42,77 @@
 the pixel has a non-zero value and unclassified means that
 the pixel has a zero value.
 
-<P>
+<p>
 
 This map must be prepared by the user in advance.
 The user must use
 
-<EM><A HREF="r.digit.html">r.digit</A></EM>,
+<em><a href="r.digit.html">r.digit</a></em>,
 
 a combination of
-<EM><A HREF="v.digit.html">v.digit</A></EM>
+<em><a href="v.digit.html">v.digit</a></em>
 and 
-<EM><A HREF="v.to.rast.html">v.to.rast</A></EM>,
+<em><a href="v.to.rast.html">v.to.rast</a></em>,
 or some other import/developement process (e.g.,
-<EM><A HREF="v.in.transects.html">v.in.transects</A>)</EM>
+<em><a href="v.in.transects.html">v.in.transects</a>)</em>
 to define the areas
 representative
 of the classes in the image.
 
 
-<P>
+<p>
 
 At present, there is no fully-interactive tool specifically
 designed for producing this layer.
 
-<DT><B>group=</B><EM>name</EM> 
+<DT><b>group=</b><em>name</em> 
 
 <DD>imagery group
 
-<P>
+<p>
 
 This is the name of the group that contains the band files
 which comprise the image to be analyzed. The
 
-<EM><A HREF="i.group.html">i.group</A></EM>
+<em><a href="i.group.html">i.group</a></em>
 
 command is used to construct groups of raster layers which
 comprise an image.
 
-<P>
+<p>
 
-<DT><B>subgroup=</B><EM>name</EM> 
+<DT><b>subgroup=</b><em>name</em> 
 
 <DD>subgroup containing image files
 
 
-<P>
+<p>
 
 This names the subgroup within the group that selects a
 subset of the bands to be analyzed. The
 
-<EM><A HREF="i.group.html">i.group</A></EM>
+<em><a href="i.group.html">i.group</a></em>
 
 command is also used to prepare this subgroup.  The
 subgroup mechanism allows the user to select a subset of
 all the band files that form an image.
 
 
-<DT><B>signaturefile=</B><EM>name</EM>
+<DT><b>signaturefile=</b><em>name</em>
 
 <DD>resultant signature file
 
-<P>
+<p>
 
 This is the resultant signature file (containing the means
 and covariance matrices) for each class in the training map
 that is associated with the band files in the subgroup
 selected.
 
-<P>
+<p>
 
 
-<DT><B>maxsig=</B><EM>value</EM> 
+<DT><b>maxsig=</b><em>value</em> 
 
 <DD>maximum number of sub-signatures in any class
 
@@ -120,10 +120,10 @@
 
 default: 10
 
-<P>
+<p>
 
 The spectral signatures which are produced by this program
-are "mixed" signatures (see <A HREF="#notes">NOTES</A>).
+are "mixed" signatures (see <a href="#notes">NOTES</a>).
 Each signature contains one or more subsignatures
 (represeting subclasses).  The algorithm in this program
 starts with a maximum number of subclasses and reduces this
@@ -134,25 +134,25 @@
 </DL>
 
 
-<H2>INTERACTIVE MODE</H2>
+<h2>INTERACTIVE MODE</h2>
 
 If none of the arguments are specified on the command line,
-<EM>i.gensigset</EM> will interactively prompt for the
+<em>i.gensigset</em> will interactively prompt for the
 names of these maps and files.
 
-<P>
+<p>
 
 It should be noted that interactive mode here only means
 interactive prompting for maps and files.  It does not mean
 visualization of the signatures that result from the
 process.
 
-<P>
+<p>
 
 
-<A NAME="notes"><H2>NOTES</H2></A>
+<A NAME="notes"><h2>NOTES</h2></a>
 
-The algorithm in <EM>i.gensigset</EM> determines the
+The algorithm in <em>i.gensigset</em> determines the
 parameters of a spectral class model known as a Gaussian
 mixture distribution.  The parameters are estimated using
 multispectral image data and a training map which labels
@@ -161,7 +161,7 @@
 be used for subsequent segmentation (i.e., classification)
 of the multispectral image.
 
-<P>
+<p>
 
 The Gaussian mixture class is a useful model because it can
 be used to describe the behavior of an information class
@@ -175,7 +175,7 @@
 with its own spectral behavior.
 
 
-<P>
+<p>
 
 The objective of mixture classes is to improve segmentation
 performance by modeling each information class as a
@@ -189,67 +189,67 @@
 training data.
 
 
-<P>
+<p>
 
 This clustering algorithm estimates both the number of
 distinct subclasses in each class, and the spectral mean
 and covariance for each subclass.  The number of subclasses
 is estimated using Rissanen's minimum description length
 (MDL) criteria 
-[<A HREF="#rissanen83">1</A>].  
+[<a href="#rissanen83">1</a>].  
 This criteria attempts to determine
 the number of subclasses which "best" describe the data.
 The approximate maximum likelihood estimates of the mean
 and covariance of the subclasses are computed using the
 expectation maximization (EM) algorithm 
-[<A HREF="#dempster77">2</A>,<A HREF="#redner84">3</A>].  
+[<a href="#dempster77">2</a>,<a href="#redner84">3</a>].  
 
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <OL>
 
-<LI><A NAME="rissanen83">J. Rissanen,</A>
+<LI><A NAME="rissanen83">J. Rissanen,</a>
 "A Universal Prior for Integers and Estimation by Minimum
 Description Length,"
-<EM>Annals of Statistics,</EM>
+<em>Annals of Statistics,</em>
 vol. 11, no. 2, pp. 417-431, 1983.
 
 
-<LI><A NAME="dempster77">A. Dempster, N. Laird and D. Rubin,</A>
+<LI><A NAME="dempster77">A. Dempster, N. Laird and D. Rubin,</a>
 "Maximum Likelihood from Incomplete Data via the EM Algorithm,"
-<EM>J. Roy. Statist. Soc. B,</EM>
+<em>J. Roy. Statist. Soc. B,</em>
 vol. 39, no. 1, pp. 1-38, 1977.
 
-<LI><A NAME="redner84">E. Redner and H. Walker,</A>
+<LI><A NAME="redner84">E. Redner and H. Walker,</a>
 "Mixture Densities, Maximum Likelihood and the EM Algorithm,"
-<EM>SIAM Review,</EM>
+<em>SIAM Review,</em>
 vol. 26, no. 2, April 1984.
 
 </OL>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="i.group.html">i.group</A></EM>
+<em><a href="i.group.html">i.group</a></em>
 for creating groups and subgroups
 
 
-<P>
+<p>
 
-<EM><A HREF="v.digit.html">v.digit</A></EM>
+<em><a href="v.digit.html">v.digit</a></em>
 and
-<EM><A HREF="r.digit.html">r.digit</A></EM>
+<em><a href="r.digit.html">r.digit</a></em>
 for interactively creating the training map.
 
 
-<P>
+<p>
 
-<EM><A HREF="i.smap.html">i.smap</A></EM>
+<em><a href="i.smap.html">i.smap</a></em>
 for creating a final classification layer from the signatures
-generated by <EM>i.gensigset.</EM>
+generated by <em>i.gensigset.</em>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 Charles Bouman, 
 School of 

Modified: grass/branches/develbranch_6/imagery/i.his.rgb/description.html
===================================================================
--- grass/branches/develbranch_6/imagery/i.his.rgb/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/imagery/i.his.rgb/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,7 +1,7 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>i.his.rgb</EM> is an image processing program that
+<em>i.his.rgb</em> is an image processing program that
 processes three input raster map layers as hue, intensity
 and saturation components and produces three output raster
 map layers representing the red, green and blue components
@@ -11,13 +11,13 @@
 is given a linear gray scale color table.  The current
 geographic region and mask settings are respected.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 It is not possible to process three bands with
-<EM>i.his.rgb</EM> and then exactly recover the original
+<em>i.his.rgb</em> and then exactly recover the original
 bands with
 
-<EM><A HREF="i.rgb.his.html">i.rgb.his</A></EM>.  
+<em><a href="i.rgb.his.html">i.rgb.his</a></em>.  
 
 This is due to loss of precision because of integer
 computations and rounding.  Tests have shown that more than
@@ -26,16 +26,16 @@
 be within plus or minus 1.  A few cell values may differ
 significantly from their original values.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="r.colors.html">r.colors</A></EM>
+<em><a href="r.colors.html">r.colors</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 David Satnik, GIS Laboratory, 
 Central Washington University
 
-<P>
+<p>
 
 with acknowledgements to Ali Vali, Univ. of Texas Space Research
 Center, for the core routine.

Modified: grass/branches/develbranch_6/imagery/i.ifft/description.html
===================================================================
--- grass/branches/develbranch_6/imagery/i.ifft/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/imagery/i.ifft/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,69 +1,69 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>i.ifft</EM> is an image processing program based on the algorithm given
+<em>i.ifft</em> is an image processing program based on the algorithm given
 by Frigo et al. (1998), that converts real and imaginary frequency space
 images (produced by
-<EM><A HREF="i.fft.html">i.fft</A></EM>) into a normal image.
+<em><a href="i.fft.html">i.fft</a></em>) into a normal image.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The current mask is respected when reading the real and
 imaginary component files;  thus, creating a mask is a 
 primary step for
 selecting the portion of the frequency space data to be included in the
-inverse transform.  The GRASS program <EM>r.digit</EM> can be used to create
+inverse transform.  The GRASS program <em>r.digit</em> can be used to create
 masks while viewing the real or imaginary component image. Alternatively
 <em>r.circle</em> can be used to generate high-, low- and donut filters
 specifying the DC point as circle/ring center.
-When <EM>i.ifft</EM> is executed, it (automatically) uses the same GRASS
+When <em>i.ifft</em> is executed, it (automatically) uses the same GRASS
 region definition setting that was used during the original transformation
-done with <EM><A HREF="i.fft.html">i.fft</A></EM>.
+done with <em><a href="i.fft.html">i.fft</a></em>.
 
 
-<P>
+<p>
 
 The real and imaginary components are read from arrays of
-doubles in the <EM>cell_misc</EM> directory (produced by
+doubles in the <em>cell_misc</em> directory (produced by
 the forward transform program,
 
-<EM><A HREF="i.fft.html">i.fft</A></EM>),
+<em><a href="i.fft.html">i.fft</a></em>),
 
 and the reconstructed image will preserve the cell value
 scaling of the original image processed by
 
-<EM><A HREF="i.fft.html">i.fft</A></EM>.  No color
+<em><a href="i.fft.html">i.fft</a></em>.  No color
 table is assigned to the output map;  one should be created
-before viewing the <EM>output_image</EM>.
+before viewing the <em>output_image</em>.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 M. Frigo and S. G. Johnson (1998): "FFTW: An Adaptive Software Architecture
 for the FFT". See <a href=>www.FFTW.org</a>: FFTW is a C subroutine library
 for computing the Discrete Fourier Transform (DFT) in one or more
 dimensions, of both real and complex data, and of arbitrary input size.
 
-<P>
+<p>
 
-<B>Remote Sensing Digital Image Analysis</B>,
+<b>Remote Sensing Digital Image Analysis</b>,
 by John A. Richards,
 Springer-Verlag, 1986.
 
-<P>
+<p>
 
 Personal communication,
 between program author and Ali R. Vali, Space Research Center,
 University of Texas, Austin, 1990.
 
-<P>
+<p>
 
-<EM><A HREF="i.cca.html">i.cca</A></EM>, 
-<EM><A HREF="i.class.html">i.class</A></EM>, 
-<EM><A HREF="i.fft.html">i.fft</A></EM>, 
-<EM><A HREF="i.pca.html">i.pca</A></EM>, 
-<EM><A HREF="r.circle.html">r.circle</A></EM>
+<em><a href="i.cca.html">i.cca</a></em>, 
+<em><a href="i.class.html">i.class</a></em>, 
+<em><a href="i.fft.html">i.fft</a></em>, 
+<em><a href="i.pca.html">i.pca</a></em>, 
+<em><a href="r.circle.html">r.circle</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 David Satnik, GIS Laboratory, 
 Central Washington University

Modified: grass/branches/develbranch_6/imagery/i.pca/description.html
===================================================================
--- grass/branches/develbranch_6/imagery/i.pca/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/imagery/i.pca/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,7 +1,7 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>i.pca</EM> is an image processing program based on the
+<em>i.pca</em> is an image processing program based on the
 algorithm provided by Vali (1990), that processes n
 (n&nbsp;&gt;=&nbsp;2) input raster map layers and produces n output
 raster map layers containing the principal components of
@@ -13,20 +13,20 @@
 option is used, the output files are rescaled to fit the
 min,max range.
 
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 <H3>Parameters:</H3>
 <DL>
-<DT><B>input=</B><EM>name,name</EM>[<EM>,name,name</EM>,...] 
+<DT><b>input=</b><em>name,name</em>[<em>,name,name</em>,...] 
 <DD>Name of two or more input raster map layers.
 
-<DT><B>output=</B><EM>name</EM> 
+<DT><b>output=</b><em>name</em> 
 <DD>The output raster map layer name to which suffixes are
 added.  Each output raster map layer is assigned this
-user-specified <EM>name</EM> with a numerical (.1, .2, ...
+user-specified <em>name</em> with a numerical (.1, .2, ...
 .n) suffix.
 
-<DT><B>rescale=</B><EM>min,max</EM> 
+<DT><b>rescale=</b><em>min,max</em> 
 <DD>The optional output category range. (Default: 0,255) If
 rescale=0,0,  no rescaling is performed on output files.
 
@@ -42,17 +42,17 @@
 </DL>
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Richards (1986) gives a good example of the application of principal
 components analysis (pca) to a time series of LANDSAT images of a burned
 region in Australia.
-<P>
+<p>
 Eigenvalue and eigenvector information is stored in the output maps'
 history files. View with <em>r.info -h</em>.
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Using the Spearfish Imagery sample dataset
 
@@ -67,33 +67,33 @@
 </pre></div>
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 Richards, John A.,
-<B>Remote Sensing Digital Image Analysis</B>,
+<b>Remote Sensing Digital Image Analysis</b>,
 Springer-Verlag, 1986.
 
-<P>
+<p>
 
 Vali, Ali R.,
 Personal communication,
 Space Research Center, 
 University of Texas, Austin, 1990.
 
-<P>
+<p>
 
-<EM>
-<A HREF="i.cca.html">i.cca</A><br>
-<A HREF="i.class.html">i.class</A><br>
-<A HREF="i.fft.html">i.fft</A><br>
-<A HREF="i.ifft.html">i.ifft</A><br>
-<A HREF="m.eigensystem.html">m.eigensystem</A><br>
-<A HREF="r.covar.html">r.covar</A><br>
-<A HREF="r.mapcalc.html">r.mapcalc</A>
-</EM>
+<em>
+<a href="i.cca.html">i.cca</a><br>
+<a href="i.class.html">i.class</a><br>
+<a href="i.fft.html">i.fft</a><br>
+<a href="i.ifft.html">i.ifft</a><br>
+<a href="m.eigensystem.html">m.eigensystem</a><br>
+<a href="r.covar.html">r.covar</a><br>
+<a href="r.mapcalc.html">r.mapcalc</a>
+</em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 David Satnik, GIS Laboratory
 <p>

Modified: grass/branches/develbranch_6/imagery/i.rgb.his/description.html
===================================================================
--- grass/branches/develbranch_6/imagery/i.rgb.his/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/imagery/i.rgb.his/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,7 +1,7 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>i.rgb.his</EM> is an image processing program that
+<em>i.rgb.his</em> is an image processing program that
 processes three input raster map layers as red, green, and
 blue components and produces three output raster map layers
 representing the hue, intensity, and saturation of the
@@ -12,11 +12,11 @@
 geographic region definition and mask settings are
 respected.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="i.his.rgb.html">i.his.rgb</A></EM>
+<em><a href="i.his.rgb.html">i.his.rgb</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 David Satnik, GIS Laboratory, 
 Central Washington University, 

Modified: grass/branches/develbranch_6/imagery/i.topo.corr/description.html
===================================================================
--- grass/branches/develbranch_6/imagery/i.topo.corr/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/imagery/i.topo.corr/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -104,9 +104,9 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<A HREF="i.landsat.toar">i.landsat.toar</A>,
-<A HREF="r.mapcalc.html">r.mapcalc</A>,
-<A HREF="r.sun.html">r.sun</A>
+<a href="i.landsat.toar">i.landsat.toar</a>,
+<a href="r.mapcalc.html">r.mapcalc</a>,
+<a href="r.sun.html">r.sun</a>
 </em>
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/imagery/i.zc/description.html
===================================================================
--- grass/branches/develbranch_6/imagery/i.zc/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/imagery/i.zc/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,7 +1,7 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>i.zc</EM> is an image processing program used for edge
+<em>i.zc</em> is an image processing program used for edge
 detection.  The raster map produced shows the location of
 "boundaries" on the input map.  Boundaries tend to be found
 in regions of changing cell values and tend to run
@@ -9,21 +9,21 @@
 used for edge detection is one of the "zero-crossing"
 algorithms and is discussed briefly below.
 
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 <H3>Parameters:</H3>
 
 <DL>
 
-<DT><B>input_map=</B><EM>name</EM> 
+<DT><b>input_map=</b><em>name</em> 
 
 <DD>Name of input raster map layer.
 
-<DT><B>zc_map=</B><EM>name</EM> 
+<DT><b>zc_map=</b><em>name</em> 
 
 <DD>Name of raster map layer to be used for zero-crossing values.
 
-<DT><B>width=</B><EM>value</EM> 
+<DT><b>width=</b><em>value</em> 
 
 <DD>This parameter determines the x-y extent of the
 Gaussian filter.  The default value is 9;  higher and lower
@@ -35,7 +35,7 @@
 
 Default:  9
 
-<DT><B>threshold=</B><EM>value</EM> 
+<DT><b>threshold=</b><em>value</em> 
 
 <DD>This parameter determines the "sensitivity" of the
 Gaussian filter.  The default value is 10;  higher and
@@ -46,13 +46,13 @@
 
 Default:  10
 
-<DT><B>orientations=</B><EM>value</EM> 
+<DT><b>orientations=</b><em>value</em> 
 
 <DD>This value is the number of azimuth directions the
 cells on the output raster map layer are categorized into
 (similar to the aspect raster map layer produced by the
 
-<EM><A HREF="r.slope.aspect.html">r.slope.aspect</A></EM>
+<em><a href="r.slope.aspect.html">r.slope.aspect</a></em>
 
 program).  For example, a value of 16 would result in
 detected edges being categorized into one of 16 bins
@@ -67,7 +67,7 @@
 The current region definition and mask settings are respected
 when reading the input map.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The procedure to find the "edges" in the image is as follows:
 
@@ -84,15 +84,15 @@
 The resulting raster map layer is output.
 </OL>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="i.fft.html">i.fft</A></EM>,
-<EM><A HREF="i.ifft.html">i.ifft</A></EM>,
-<EM><A HREF="r.mapcalc.html">r.mapcalc</A></EM>,
-<EM><A HREF="r.mfilter.html">r.mfilter</A></EM>,
-<EM><A HREF="r.slope.aspect.html">r.slope.aspect</A></EM>
+<em><a href="i.fft.html">i.fft</a></em>,
+<em><a href="i.ifft.html">i.ifft</a></em>,
+<em><a href="r.mapcalc.html">r.mapcalc</a></em>,
+<em><a href="r.mfilter.html">r.mfilter</a></em>,
+<em><a href="r.slope.aspect.html">r.slope.aspect</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 David Satnik, GIS Laboratory, 
 Central Washington University

Modified: grass/branches/develbranch_6/lib/init/grass6.html
===================================================================
--- grass/branches/develbranch_6/lib/init/grass6.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/lib/init/grass6.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -10,22 +10,22 @@
 
 <img src="grass_logo.png" alt="GRASS logo"><hr align=center size=6 noshade>
 
-<H2>NAME</H2>
+<h2>NAME</h2>
 
-<EM><B>grass65</B></EM>  - The GRASS startup program<BR>
+<em><b>grass65</b></em>  - The GRASS startup program<br>
 
-<H2>SYNOPSIS</H2>
+<h2>SYNOPSIS</h2>
 
-<B>grass65</B> [<B>-</B>] [<B>-v</B>] [<B>-h | -help | --help</B>]
-    [<B>-text | -gui | -tcltk | -oldtcltk | -wxpython | -wx]</B>]
-    [[[<B>&lt;GISDBASE&gt;/</B>]<B>&lt;LOCATION_NAME&gt;/</B>]
-    	<B>&lt;MAPSET&gt;</B>]
+<b>grass65</b> [<b>-</b>] [<b>-v</b>] [<b>-h | -help | --help</b>]
+    [<b>-text | -gui | -tcltk | -oldtcltk | -wxpython | -wx]</b>]
+    [[[<b>&lt;GISDBASE&gt;/</b>]<b>&lt;LOCATION_NAME&gt;/</b>]
+    	<b>&lt;MAPSET&gt;</b>]
 
-<BR>
+<br>
 
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<P>
+<p>
 This command is used to launch GRASS GIS. It will parse the command line
 arguments and then initialize GRASS for the user. Since GRASS programs
 require a specific environment, this program must be called before any other
@@ -34,85 +34,85 @@
 desired mapset to work on.
 
 
-<H2>FEATURES</H2>
+<h2>FEATURES</h2>
 
-<P>
+<p>
 The <em>grass65</em> startup program will remember both the desired user
 interface and mapset. Thus, the next time the user runs GRASS, typing
-<EM>grass65</EM> (without any options) will start GRASS with the previous
+<em>grass65</em> (without any options) will start GRASS with the previous
 settings for the user interface and mapset selected.
 
-<P>
-If you specify a graphical user interface (Tcl/Tk or wxPython) the <EM>grass65</EM>
+<p>
+If you specify a graphical user interface (Tcl/Tk or wxPython) the <em>grass65</em>
 program will try to verify that the system you specified exists and that you
-can access it successfully. If any of these checks fail then <EM>grass65</EM>
+can access it successfully. If any of these checks fail then <em>grass65</em>
 will automatically switch back to the text user interface mode.
 
 
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
-<P>
+<p>
 All command line options are optional.
 
-<H3>Flags:</H3>
+<h3>Flags:</h3>
 
-<DL>
+<dl>
 
-<DT><B>-</B>
-<DD> Tries to start GRASS using location environment variables (see below)
+<dt><b>-</b>
+<dd> Tries to start GRASS using location environment variables (see below)
 
-<DT><B>-h</B> <B>-help</B> <B>--help</B>
-<DD> Prints a brief usage message
+<dt><b>-h</b> <b>-help</b> <b>--help</b>
+<dd> Prints a brief usage message
 
-<DT><B>-text</B>
-<DD> Indicates that the text based user interface should be used
+<dt><b>-text</b>
+<dd> Indicates that the text based user interface should be used
 
-<DT><B>-gui</B> (or <B>-tcltk</B>)
-<DD> Indicates that the old Tcl/Tk based graphical user interface should be used
+<dt><b>-gui</b> (or <b>-tcltk</b>)
+<dd> Indicates that the old Tcl/Tk based graphical user interface should be used
 
-<DT><B>-oldtcltk</B>
-<DD> Indicates that the even older Tcl/Tk based graphical user interface should be used
+<dt><b>-oldtcltk</b>
+<dd> Indicates that the even older Tcl/Tk based graphical user interface should be used
 
-<DT><B>-wxpython</B> (or <B>-wx</B>)
-<DD> Indicates that the new Python based graphical user interface should be used
+<dt><b>-wxpython</b> (or <b>-wx</b>)
+<dd> Indicates that the new Python based graphical user interface should be used
 
-<DT><B>-v</B> <B>--version</B>
-<DD> Prints the version of GRASS and exits
+<dt><b>-v</b> <b>--version</b>
+<dd> Prints the version of GRASS and exits
 
-</DL>
+</dl>
 
-<H3>Parameters:</H3>
+<h3>Parameters:</h3>
 
-<DL>
-<DT><B>GISDBASE</B>
-<DD> Initial database directory which should be a fully qualified path
+<dl>
+<dt><b>GISDBASE</b>
+<dd> Initial database directory which should be a fully qualified path
     (e.g., /usr/local/share/grassdata)
 
-<DT><B>LOCATION_NAME</B>
-<DD> Initial location directory which is a subdirectory of GISDBASE
+<dt><b>LOCATION_NAME</b>
+<dd> Initial location directory which is a subdirectory of GISDBASE
 
-<DT><B>MAPSET</B>
-<DD> Initial mapset directory which is a subdirectory of LOCATION_NAME
-</DL>
+<dt><b>MAPSET</b>
+<dd> Initial mapset directory which is a subdirectory of LOCATION_NAME
+</dl>
 
-<BR>
-<B><i>Note</i></B>- These parameters must be specified in one of the
+<br>
+<b><i>Note</i></b>- These parameters must be specified in one of the
 following ways:
-<DL><DD>
-    MAPSET<BR>
-    LOCATION_NAME/MAPSET<BR>
-    GISDBASE/LOCATION_NAME/MAPSET<BR>
+<dl><dd>
+    MAPSET<br>
+    LOCATION_NAME/MAPSET<br>
+    GISDBASE/LOCATION_NAME/MAPSET<br>
     
-</DL>
+</dl>
 
 
-<H2>ENVIRONMENT VARIABLES</H2>
+<h2>ENVIRONMENT VARIABLES</h2>
 
 A number of environment variables are available at GRASS startup to assist
 with automation and customization. Most users will not need to bother with
 these.
 
-<P>
+<p>
 In addition to these shell environment variables GRASS maintains a number of
 GIS environment variables in the <tt>$HOME/.grassrc6</tt> file. User changes
 to this file will be read during the next startup of GRASS. If this file
@@ -122,57 +122,57 @@
 The rest of this help page will only consider shell environment variables.
 
 
-<H3>User Interface Environment Variable</H3>
+<h3>User Interface Environment Variable</h3>
 
-<P>
-The <EM>grass65</EM> program will check for the existence of an environment
+<p>
+The <em>grass65</em> program will check for the existence of an environment
 variable called GRASS_GUI which indicates the type of user interface for
-GRASS to use. If this variable is not set when <EM>grass65</EM> is run, then
+GRASS to use. If this variable is not set when <em>grass65</em> is run, then
 it will be created and then saved in the <tt>$HOME/.grassrc6</tt> file for
 the next time GRASS is run. In addition to "text", "tcltk" or "wxpython",
 the GRASS_GUI variable can be set to the name of the Tcl/Tk GUI to use, for
 example "gis.m" or "d.m".
 
-<P>
-There is an order of precedence in the way <EM>grass65</EM> determines the user
+<p>
+There is an order of precedence in the way <em>grass65</em> determines the user
 interface to use. The following is the hierarchy from highest precedence to
 lowest.
 
-<DL>
- <DT><B>Interface precedence</B>
- <DD>&bull; Command line argument<BR>
-     &bull; Environment variable GRASS_GUI<BR>
-     &bull; Value set in <tt>$HOME/.grassrc6</tt><BR>
+<dl>
+ <dt><b>Interface precedence</b>
+ <dd>&bull; Command line argument<br>
+     &bull; Environment variable GRASS_GUI<br>
+     &bull; Value set in <tt>$HOME/.grassrc6</tt><br>
      &bull; Default value - currently gis.m
-</DL>
+</dl>
 
-<H3>Tcl/Tk and Python Environment Variables</H3>
+<h3>Tcl/Tk and Python Environment Variables</h3>
 
-<P>
+<p>
 If you choose to use the Tcl/Tk graphical user interface, then the following
 environment variables can be used to override your system default
 <tt>tclsh</tt> and <tt>wish</tt> commands.
 
-<DL>
-<DT><B>GRASS_TCLSH</B>
-<DD> Command to use to override <tt>tclsh</tt>
+<dl>
+<dt><b>GRASS_TCLSH</b>
+<dd> Command to use to override <tt>tclsh</tt>
 
-<DT><B>GRASS_WISH</B>
-<DD> Command to use to override <tt>wish</tt>
+<dt><b>GRASS_WISH</b>
+<dd> Command to use to override <tt>wish</tt>
 
-<DT><B>GRASS_PYTHON</B>
-<DD> Command to use to override <tt>python</tt>
-</DL>
+<dt><b>GRASS_PYTHON</b>
+<dd> Command to use to override <tt>python</tt>
+</dl>
 
 
 <H4>Example Use of GRASS Tcl/Tk Environment Variables</H4>
 
-<P>
+<p>
 Suppose your system has Tcl/Tk 8.3 installed and you install a personal
 version of the Tcl/Tk 8.5 binaries under <tt>$HOME/bin</tt>. You can use
 the above variables to have GRASS use the Tcl/Tk 8.5 binaries instead.
 
-<P>
+<p>
 <pre>
    GRASS_TCLSH = $HOME/bin/tclsh8.5
    GRASS_WISH  = $HOME/bin/wish8.5
@@ -180,65 +180,65 @@
 
 
 <H4>Example Use of the GRASS Python Environment Variable</H4>
-<P>
+<p>
 <pre>
    GRASS_PYTHON=python2.5
 </pre>
 
 
 
-<H3>Addon path to extra local GRASS modules</H3>
+<h3>Addon path to extra local GRASS modules</h3>
 
 This environment variable allows the user to extend the GRASS program search
 paths to include locally developed/installed addon modules which are not
 distributed with the standard GRASS release.
-<P>
+<p>
 <pre>
    GRASS_ADDON_PATH=/usr/mytools
    GRASS_ADDON_PATH=/usr/mytools:/usr/local/othertools
 </pre>
 
-<P>
+<p>
 In this example above path(s) would be added to the standard GRASS path
 environment.
 
 
-<H3>HTML browser variable</H3>
+<h3>HTML browser variable</h3>
 
 The GRASS_HTML_BROWSER environment variable allows the user to set the HTML
 web browser to use for dispalying help pages.
 
 
-<H3>Location Environment Variables</H3>
+<h3>Location Environment Variables</h3>
 
-<P>
+<p>
 The Synopsis and Options sections above describe options that can be used to
 set the location and mapset that GRASS will use. These values can also be set
 with environment variables. However, specifying the location and mapset
 variables on the command line will override these environment variables. The
 available variables are as follows:
 
-<DL>
+<dl>
 
-<DT><B>LOCATION</B>
-<DD> A fully qualified path to a mapset 
+<dt><b>LOCATION</b>
+<dd> A fully qualified path to a mapset 
     (eg /usr/local/share/grassdata/spearfish60/PERMANENT). This environment variable
     overrides the GISDBASE, LOCATION_NAME, and MAPSET variables.
 
-<DT><B>GISDBASE</B>
-<DD> Initial database directory which should be a fully qualified path
+<dt><b>GISDBASE</b>
+<dd> Initial database directory which should be a fully qualified path
     (eg /usr/local/share/grassdata)
 
-<DT><B>LOCATION_NAME</B>
-<DD> Initial location directory which is a subdirectory of GISDBASE
+<dt><b>LOCATION_NAME</b>
+<dd> Initial location directory which is a subdirectory of GISDBASE
 
-<DT><B>MAPSET</B>
-<DD> Initial mapset directory which is a subdirectory of LOCATION_NAME
+<dt><b>MAPSET</b>
+<dd> Initial mapset directory which is a subdirectory of LOCATION_NAME
 
-</DL>
+</dl>
 
 
-<H3>Running non-interactive batch jobs</H3>
+<h3>Running non-interactive batch jobs</h3>
 
 If the <tt>GRASS_BATCH_JOB</tt> environment variable is set to the <i>full</i>
 path and filename of a shell script then GRASS will be launched in a 
@@ -248,132 +248,132 @@
 The script file must have its executable bit set.
 
 
-<H3>Note</H3>
+<h3>Note</h3>
 
-<P>
+<p>
 Note that you will need to set these variables using the appropriate method
 required for the UNIX shell that you use. (e.g. in a Bash shell you must
 "export" the variables for them to propogate)
 
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
-<P>
+<p>
 The following are some examples of how you could start GRASS
 
-<DL>
+<dl>
 
-<DT><B>grass65</B>
-<DD> Start GRASS using the default user interface. The user will be prompted
+<dt><b>grass65</b>
+<dd> Start GRASS using the default user interface. The user will be prompted
     to choose the appropriate location and mapset.
 
-<DT><B>grass65 -gui</B>
-<DD> Start GRASS using the Tcl/Tk based user interface. The user will be
+<dt><b>grass65 -gui</b>
+<dd> Start GRASS using the Tcl/Tk based user interface. The user will be
     prompted to choose the appropriate location and mapset.
 
-<DT><B>grass65 -text</B>
-<DD> Start GRASS using the text based user interface. The user will be
+<dt><b>grass65 -text</b>
+<dd> Start GRASS using the text based user interface. The user will be
     prompted to choose the appropriate location and mapset.
 
-<DT><B>grass65 ~/grassdata/spearfish60/user1</B>
-<DD> Start GRASS using the default user interface and automatically launch
+<dt><b>grass65 ~/grassdata/spearfish60/user1</b>
+<dd> Start GRASS using the default user interface and automatically launch
    into the given mapset, bypassing the mapset selection menu.
 
-<DT><B>grass65 -gui -</B>
-<DD> Start GRASS using the Tcl/Tk based user interface and try to obtain
+<dt><b>grass65 -gui -</b>
+<dd> Start GRASS using the Tcl/Tk based user interface and try to obtain
     the location and mapset from environment variables.
 
-</DL>
+</dl>
 
 
-<H3>Other examples</H3>
+<h3>Other examples</h3>
 
 There are a variety of ways in which the <i>location environment
 variables</i> (see above) can be used to specify the mapset to use.
 The following are some possible examples.
 
-<DL>
+<dl>
 
-<DT><B>Example 1</B>
-<DD> The environment variables are defined as follows:<BR><BR>
+<dt><b>Example 1</b>
+<dd> The environment variables are defined as follows:<br><br>
     
-    LOCATION = /usr/local/share/grassdata/spearfish60/PERMANENT<BR>
-    GISDBASE = /usr/local/share/grassdata<BR>
-    LOCATION_NAME = spearfish60<BR>
-    MAPSET = PERMANENT<BR><BR>
+    LOCATION = /usr/local/share/grassdata/spearfish60/PERMANENT<br>
+    GISDBASE = /usr/local/share/grassdata<br>
+    LOCATION_NAME = spearfish60<br>
+    MAPSET = PERMANENT<br><br>
     
-    Start GRASS with the following command:<BR><BR>
+    Start GRASS with the following command:<br><br>
     
-    grass65 -<BR><BR>
+    grass65 -<br><br>
     
     GRASS will start with the mapset defined by LOCATION since the LOCATION
-    variable overrides the other variables.<BR><BR>
+    variable overrides the other variables.<br><br>
 
-<DT><B>Example 2</B>
-<DD> The environment variables are defined as follows:<BR><BR>
+<dt><b>Example 2</b>
+<dd> The environment variables are defined as follows:<br><br>
     
-    GISDBASE = /usr/local/share/grassdata<BR>
-    LOCATION_NAME = spearfish60<BR>
-    MAPSET = PERMANENT<BR><BR>
+    GISDBASE = /usr/local/share/grassdata<br>
+    LOCATION_NAME = spearfish60<br>
+    MAPSET = PERMANENT<br><br>
     
-    Start GRASS with the following command:<BR><BR>
+    Start GRASS with the following command:<br><br>
     
-    grass65 -<BR><BR>
+    grass65 -<br><br>
     
     GRASS will start with the mapset defined by
-    GISDBASE/LOCATION_NAME/MAPSET.<BR><BR>
+    GISDBASE/LOCATION_NAME/MAPSET.<br><br>
 
-<DT><B>Example 3</B>
-<DD> The environment variables are defined as follows:<BR><BR>
+<dt><b>Example 3</b>
+<dd> The environment variables are defined as follows:<br><br>
     
-    LOCATION = /usr/local/share/grassdata/spearfish60/PERMANENT<BR>
-    GISDBASE = /usr/local/share/grassdata<BR>
-    LOCATION_NAME = spearfish60<BR>
-    MAPSET = PERMANENT<BR><BR>
+    LOCATION = /usr/local/share/grassdata/spearfish60/PERMANENT<br>
+    GISDBASE = /usr/local/share/grassdata<br>
+    LOCATION_NAME = spearfish60<br>
+    MAPSET = PERMANENT<br><br>
     
-    Start GRASS with the following command:<BR><BR>
+    Start GRASS with the following command:<br><br>
     
-    grass65 /usr/home/grass/data/thailand/forests<BR><BR>
+    grass65 /usr/home/grass/data/thailand/forests<br><br>
     
     GRASS will start with the mapset /home/grass/data/thailand/forests which
-    overrides the environment variables.<BR><BR>
+    overrides the environment variables.<br><br>
 
-<DT><B>Example 4</B>
-<DD> The environment variables are defined as follows:<BR><BR>
+<dt><b>Example 4</b>
+<dd> The environment variables are defined as follows:<br><br>
     
-    LOCATION = /usr/local/share/grassdata/spearfish60/PERMANENT<BR>
-    GISDBASE = /usr/local/share/grassdata<BR>
-    LOCATION_NAME = spearfish60<BR>
-    MAPSET = PERMANENT<BR><BR>
+    LOCATION = /usr/local/share/grassdata/spearfish60/PERMANENT<br>
+    GISDBASE = /usr/local/share/grassdata<br>
+    LOCATION_NAME = spearfish60<br>
+    MAPSET = PERMANENT<br><br>
     
-    Start GRASS with the following command:<BR><BR>
+    Start GRASS with the following command:<br><br>
     
-    grass65 swamps<BR><BR>
+    grass65 swamps<br><br>
     
     GRASS will start with the mapset defined by GISDBASE/LOCATION_NAME/swamps
     since the command line argument for the mapset overrides the environment
-    variable MAPSET.<BR><BR>
+    variable MAPSET.<br><br>
 
-<DT><B>Example 5</B>
-<DD> The environment variables are defined as follows:<BR><BR>
+<dt><b>Example 5</b>
+<dd> The environment variables are defined as follows:<br><br>
     
-    LOCATION = /usr/local/share/grassdata/spearfish60/PERMANENT<BR>
-    GISDBASE = /usr/local/share/grassdata<BR>
-    LOCATION_NAME = spearfish60<BR>
-    MAPSET = PERMANENT<BR><BR>
+    LOCATION = /usr/local/share/grassdata/spearfish60/PERMANENT<br>
+    GISDBASE = /usr/local/share/grassdata<br>
+    LOCATION_NAME = spearfish60<br>
+    MAPSET = PERMANENT<br><br>
     
-    Start GRASS with the following command:<BR><BR>
+    Start GRASS with the following command:<br><br>
     
-    grass65 thailand/forests<BR><BR>
+    grass65 thailand/forests<br><br>
     
     GRASS will start with the mapset defined by GISDBASE/thailand/forests
     since the command line arguments for the location and mapset overrides
-    the environment variables LOCATION_NAME and MAPSET.<BR><BR>
+    the environment variables LOCATION_NAME and MAPSET.<br><br>
 
-</DL>
+</dl>
 
 
-<H2>CAVEAT</H2>
+<h2>CAVEAT</h2>
 
 If you start GRASS using the Tcl/Tk interface you must have a <tt>wish</tt>
 command in your $PATH variable. That is, the command must be named
@@ -382,29 +382,29 @@
 administrator must create an appropriate link to the actual <tt>wish</tt>
 program.
 
-<P>
+<p>
 For example, suppose Tcl/Tk 8.3 programs are installed in /usr/local/bin. Then
 the system administrator should go to the /usr/local/bin directory and run the
 commands "<tt>ln -s wish8.3 wish</tt>" and "<tt>ln -s tclsh8.3 tclsh</tt>" to
 properly install Tcl/Tk for use with GRASS.
 
-<P>
+<p>
 Furthermore, if you have more than one version of Tcl/Tk installed, make sure
 that the version you want to use with GRASS is the first version found in
 your <tt>$PATH</tt> variable. GRASS searches your <tt>$PATH</tt> variable
 until it finds the first version of <tt>wish</tt>.
 
 
-<H2>FILES</H2>
+<h2>FILES</h2>
 
-<EM>$UNIX_BIN/grass65</EM> - GRASS startup program (Linux, MacOSX etc.)<BR>
-<EM>$WINDOWS_BIN/grass65.bat</EM> - GRASS startup program (MS-Windows)<BR>
-<EM>$GISBASE/etc/Init.sh</EM> - GRASS initialization script called by
-    <EM>grass65</EM><BR>
-<EM>$GISBASE/etc/gis_set.tcl</EM> - Tcl/Tk script to set the
-    location and mapset to use. Called by <EM>Init.sh</EM><BR><BR>
+<em>$UNIX_BIN/grass65</em> - GRASS startup program (Linux, MacOSX etc.)<br>
+<em>$WINDOWS_BIN/grass65.bat</em> - GRASS startup program (MS-Windows)<br>
+<em>$GISBASE/etc/Init.sh</em> - GRASS initialization script called by
+    <em>grass65</em><br>
+<em>$GISBASE/etc/gis_set.tcl</em> - Tcl/Tk script to set the
+    location and mapset to use. Called by <em>Init.sh</em><br><br>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 List of <a href=variables.html>implemented GRASS environment variables</a>.
 <p>
@@ -412,7 +412,7 @@
 <p>
 <a href="http://download.osgeo.org/grass/grass6_progman/">GRASS 6 Programmer's Manual</a>
 
-<H2>AUTHORS (of this page)</H2>
+<h2>AUTHORS (of this page)</h2>
 
 Justin Hickey<br>
 Markus Neteler<br>
@@ -421,7 +421,7 @@
 <p>
 <i>Last changed: $Date$</i>
 <HR>
-<P>
+<p>
 <a href=index.html>Help Index</a>
 
 </body>

Modified: grass/branches/develbranch_6/lib/init/helptext.html
===================================================================
--- grass/branches/develbranch_6/lib/init/helptext.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/lib/init/helptext.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -131,12 +131,12 @@
     <tt>mkdir /home/yourlogin/grassdata</tt>).</LI>
 </OL>
 
-<P>
+<p>
 Sample data such as the "Spearfish" or the "North Carolina" sample datasets
 may be downloaded from 
-<A HREF="http://grass.osgeo.org/download/data.php">http://grass.osgeo.org/download/data.php</A>
+<a href="http://grass.osgeo.org/download/data.php">http://grass.osgeo.org/download/data.php</a>
 and placed in this new database directory.
-<P>
+<p>
 
 
 <h3>A) Create New Location with wxGUI</h3>
@@ -154,7 +154,7 @@
 continue by pressing "ESC"-"RETURN" - i.e. press (NOT hold) the ESC key,
 and then press the RETURN key on your keyboard.
 
-<P>
+<p>
 Next you will need to assign parameters to the location such
 as the coordinate system and datum you want to use, the project area's
 boundary coordinates, and the default resolution for raster data:
@@ -167,7 +167,7 @@
    project area, for example "Topo Map of the Alps".</LI>
 </UL>
 
-<P>
+<p>
 Next you are requested for some more information about the projection.
 Note that the prompts vary from projection to projection, an example follows:
 
@@ -186,10 +186,10 @@
 <LI> Enter plural form of map units: for example, meters
 </UL>
 
-<P>
+<p>
 The next step is the description of the project area's boundary coordinates
 and the definition of the default raster resolution:
-<P>
+<p>
 The default raster resolution (GRID RESOLUTION) has to be chosen
 according to your needs. Generally, it is advisable to work in steps of
 0.25 (0.25, 0.5, 1.75, 2.00, 12.25 etc.). This resolution does not
@@ -197,25 +197,25 @@
 coordinate values. Note that every raster map may have its own
 resolution. You can leave this screen with "ESC"-"RETURN" and then
 if everything is correct accept the list of parameters that appears.
-<P>
+<p>
 You will then be back to the startup screen to enter the mapset's
 name (if not already entered). Another "ESC"-"RETURN" will finally
 let you leave this screen. This mapset is created within the new
 location by answering "yes" to the next question. The mapset will
 use the parameters of the location (such as the region and resolution
 definitions) as its default parameters.
-<P>
+<p>
 Now the project area, i.e. the location including a mapset, has been
 created. You have "arrived" in the GRASS system and can start working
 within this new location.
 
 
-<H2>Further Reading</H2>
+<h2>Further Reading</h2>
 
 Please have a look at the GRASS web site for tutorials and books:
-<A HREF="http://grass.osgeo.org/gdp/index.php">http://grass.osgeo.org/gdp/index.php</A>.
+<a href="http://grass.osgeo.org/gdp/index.php">http://grass.osgeo.org/gdp/index.php</a>.
 
-<H2>See also</H2>
+<h2>See also</h2>
 
 <a href="index.html">GRASS 6 Reference Manual</a>
 <br>
@@ -223,7 +223,7 @@
 
 <p><i>Last changed: $Date$</i>
 <HR>
-<P><a href=index.html>Help Index</a>
-<P>&copy; 2005-2010 <a href="http://grass.osgeo.org">GRASS Development Team</a></P>
+<p><a href=index.html>Help Index</a>
+<p>&copy; 2005-2010 <a href="http://grass.osgeo.org">GRASS Development Team</a></P>
 </BODY>
 </HTML>

Modified: grass/branches/develbranch_6/lib/init/variables.html
===================================================================
--- grass/branches/develbranch_6/lib/init/variables.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/lib/init/variables.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -290,7 +290,7 @@
     2008/03 -- variables are described in PNG driver manual
    page. The link should be enough here.
 
-   <P></P>
+   <p></P>
 
 <p>GRASS_PNGFILE
   <br>&nbsp; name of PNG output file. If it ends with ".ppm" a PPM file will be created.
@@ -341,7 +341,7 @@
     2008/03 -- variables are described in PS driver manual
    page. The link should be enough here.
 
-<P></P>
+<p></P>
 
 <p>GRASS_PSFILE
 <br>&nbsp; name of output file. If it ends with ".eps" an EPS file

Modified: grass/branches/develbranch_6/misc/m.cogo/description.html
===================================================================
--- grass/branches/develbranch_6/misc/m.cogo/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/misc/m.cogo/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,49 +1,49 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>m.cogo</EM> converts data points between bearing and distance
+<em>m.cogo</em> converts data points between bearing and distance
 and X,Y coordinates.  Only simple bearing/distance or coordinate
 pairs are handled. It assumes a cartesian coordinate system.
 
-<P>
+<p>
 Input can be entered via standard input (default) or from the file
-<B>input=</B><EM>name</EM>. Specifying the input as "-" also
+<b>input=</b><em>name</em>. Specifying the input as "-" also
 specifies standard input, and is useful for using the program in
 a pipeline.  Output will be to standard output unless a file
 name other than "-" is specified.  The input file must
 closely adhere to the following format, where up to a 10 character
-label is allowed but not required (see <B>-l</B> flag).
+label is allowed but not required (see <b>-l</b> flag).
 
-<P>
-<B>Example COGO input:</B>
+<p>
+<b>Example COGO input:</b>
 <div class="code"><pre>
    P23 N 23:14:12 W 340
    P24 S 04:18:56 E 230
    ...
 </pre></div>
 
-<P>
-The first column may contain a label and you must use the <B>-l</B>
+<p>
+The first column may contain a label and you must use the <b>-l</b>
 flag so the program knows.  This is followed by a space, and then
 either the character 'N' or 'S' to indicate whether the bearing is
 relative to the north or south directions.  After another space,
 the angle begins in degrees, minutes, and seconds in
 "DDD:MM:SS.SSSS" format. Generally, the angle can be of the form
-<EM>digits + separator + digits + separator + digits [+ '.' + digits]</EM>.
+<em>digits + separator + digits + separator + digits [+ '.' + digits]</em>.
 A space follows the angle, and is then followed by either the 'E' or 'W'
 characters. A space separates the bearing from the distance (which should
 be in appropriate linear units).
 
-<P>
-<B>Output of the above input:</B>
+<p>
+<b>Output of the above input:</b>
 <div class="code"><pre>
    -134.140211 312.420236 P23
    -116.832837 83.072345 P24
    ...
 </pre></div>
-<P>
-Unless specified with the <B>coord</B> option, calculations begin from (0,0).
+<p>
+Unless specified with the <b>coord</b> option, calculations begin from (0,0).
 
-<P>
+<p>
 For those unfamiliar with the notation for bearings: Picture yourself in the
 center of a circle.  The first hemispere notation tell you whether you should
 face north or south.  Then you read the angle and either turn that many
@@ -52,16 +52,16 @@
 next station.
 </P>
 
-<EM>m.cogo</EM> can be run either non-interactively or
+<em>m.cogo</em> can be run either non-interactively or
 interactively.  The program will be run non-interactively
 if the user specifies any parameter or flag. Use "m.cogo -",
 to run the program in a pipeline.  Without any flags or
-parameters, <EM>m.cogo</EM> will prompt for each value
+parameters, <em>m.cogo</em> will prompt for each value
 using the familiar GRASS parser interface.
 
-<P>
+<p>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 This program is very simplistic, and will not handle deviations
 from the input format explained above.  Currently, the
@@ -71,7 +71,7 @@
 vector and/or sites layers.
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 <div class="code"><pre>
    m.cogo -l in=cogo.dat
@@ -125,19 +125,19 @@
 converted to areas with <em>v.centroids</em>.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.centroids.html">v.centroids</a>,
-<a HREF="v.clean.html">v.clean</a>,
-<a HREF="v.digit.html">v.digit</a>,
-<a HREF="v.in.ascii.html">v.in.ascii</a>,
-<a HREF="v.type.html">v.type</a>
+<a href="v.centroids.html">v.centroids</a>,
+<a href="v.clean.html">v.clean</a>,
+<a href="v.digit.html">v.digit</a>,
+<a href="v.in.ascii.html">v.in.ascii</a>,
+<a href="v.type.html">v.type</a>
 </em>
 
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Eric G. Miller
 

Modified: grass/branches/develbranch_6/misc/m.nviz.image/description.html
===================================================================
--- grass/branches/develbranch_6/misc/m.nviz.image/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/misc/m.nviz.image/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -18,7 +18,7 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="wxGUI.Nviz.html">wxGUI 3D view mode</a>
+<a href="wxGUI.Nviz.html">wxGUI 3D view mode</a>
 </em>
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/ps/ps.map/description.html
===================================================================
--- grass/branches/develbranch_6/ps/ps.map/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/ps/ps.map/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,42 +1,42 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>ps.map</EM> is a cartographic mapping program for producing high quality
+<em>ps.map</em> is a cartographic mapping program for producing high quality
 hardcopy maps in PostScript format. Output can include a raster map, any
 number of vector overlays, text labels, decorations, and other spatial data.
 
-<P>
+<p>
 A file of mapping instructions that describes the various spatial and textual
-information to be printed must be prepared prior to running <EM>ps.map</EM>.
-<P>
+information to be printed must be prepared prior to running <em>ps.map</em>.
+<p>
 This program can also be run in an interactive command-line mode, which
-is launched by running <EM>ps.map</EM> from the command line without the
+is launched by running <em>ps.map</em> from the command line without the
 <b>input</b> parameter.
 The interactive mode will prompt the user for items to be mapped and
 does not require the user to prepare a file of instructions (n.b., some
 options may not be used in interactive mode).
-<P>
+<p>
 Rules may also be given via direct pipe from <tt>stdin</tt>.
 
 
-<H2>NOTES</H2> 
+<h2>NOTES</h2> 
 
-<P>
+<p>
 The order of commands is generally unimportant but may affect how some layers
-are drawn. For example to plot <B>vpoints</B> above <B>vareas</B> list the
-<B>vpoints</B> entry first. Raster maps are always drawn first, and only a
+are drawn. For example to plot <b>vpoints</b> above <b>vareas</b> list the
+<b>vpoints</b> entry first. Raster maps are always drawn first, and only a
 single raster map (or 3 if part of a RGB group) may be used.
 
-<P>
+<p>
 The hash character ('<tt>#</tt>') may be used at the beginning of a line
 to indicate that the line is a comment. Blank lines will also be ignored.
 
-<P>
+<p>
 Be aware that some mapping instructions require the <i>end</i> command
 and some do not. Any instruction that allows subcommands will require
 it, any instruction that does not allow subcommands will not.
 
-<P>
-The resolution and extent of raster maps plotted with <EM>ps.map</EM> are
+<p>
+The resolution and extent of raster maps plotted with <em>ps.map</em> are
 controlled by the current region settings via the
 <a href="g.region.html">g.region</a> module. The output filesize is largely
 a function of the region resolution, so special care should be taken
@@ -48,16 +48,16 @@
 output file larger, but with a consumer printer you probably won't be able
 to resolve any better detail in the hardcopy.
 
-<P>
+<p>
 The user can specify negative or greater than 100 percentage values for
 positioning several map decorations and embedded EPS-files, to move them
 outside the current map box region (for example to position a caption,
 barscale, or legend above or below the map box).
 
-<P>
+<p>
 One point ("pixel") is 1/72 of an inch.
 
-<P>
+<p>
 For users wanting to use special characters (such as accented characters) it
 is important to note that <em>ps.map</em> uses <tt>ISO-8859-1</tt> encoding.
 This means that your instructions file will have to be encoded in this
@@ -70,9 +70,9 @@
 </PRE></DIV>
 
 
-<P><P>
+<p><p>
 
-<H2>MAPPING INSTRUCTIONS</H2>
+<h2>MAPPING INSTRUCTIONS</h2>
 
 The mapping instructions allow the user to specify various spatial data
 to be plotted. These instructions are normally prepared in a regular
@@ -80,7 +80,7 @@
 instructions while others are multiple line. Multiple line instructions
 consist of the main instruction followed by a subsection of one or more
 additional instructions and are terminated with an <i>end</i> instruction.
-<P>
+<p>
 
 <h3>Instruction keywords:</h3>
 [ 
@@ -125,15 +125,15 @@
 different main instructions are:
 
 <DL>
-<DT><B>where</B> <EM>x y</EM>
+<DT><b>where</b> <em>x y</em>
 
 <DD>The top left corner of the bounding box of the item to be plotted
-is located <EM>x</EM> inches from the left edge of the paper and
-<EM>y</EM> inches from the top edge of the paper. If <EM>x</EM> is less than
-or equal to zero, the default horizontal location is used.  If <EM>y</EM>
+is located <em>x</em> inches from the left edge of the paper and
+<em>y</em> inches from the top edge of the paper. If <em>x</em> is less than
+or equal to zero, the default horizontal location is used.  If <em>y</em>
 is less than or equal to zero, the default vertical location is used.
 
-<DT><B>font</B> <EM>font name</EM> 
+<DT><b>font</b> <em>font name</em> 
 
 <DD>The name of the PostScript font.
 Fonts present in all PostScript implementations are:
@@ -156,15 +156,15 @@
 </DD>
 
 
-<DT><B>fontsize</B> <EM>font size</EM> 
+<DT><b>fontsize</b> <em>font size</em> 
 
 <DD>The size of the PostScript font (in 1/72nds of an inch).
 The default is 10 point.
 </DD>
 
 
-<DT><a name="NAMED_COLORS"></a><B>color</B> <EM>name</EM>
-<DD>The following colors names are accepted by <EM>ps.map</EM>:
+<DT><a name="NAMED_COLORS"></a><b>color</b> <em>name</em>
+<DD>The following colors names are accepted by <em>ps.map</em>:
 <tt>
 aqua,
 black,
@@ -188,7 +188,7 @@
 '<tt>none</tt>' or '<tt>R:G:B</tt>' (e.g '<tt>255:0:0</tt>').
 </DD>
 
-<DT><B>yes|no</B>
+<DT><b>yes|no</b>
 <DD>For options that take a yes or no answer, you can simply use the
 letters "y" or "n", or type out the full words "Yes" or "No" if you
 prefer. It is not case-sensitive. Typically the option with have a
@@ -198,100 +198,100 @@
 
 
 </DL>
-<P>
+<p>
 <BR>
 
 
 <h3>Command usage</h3>
 
 <a name="border"></a>
-<H2>border</H2>
+<h2>border</h2>
 
 Controls the border which is drawn around the map area.
 <PRE>
-USAGE:  <B>border</B> [y|n]
-	<B>color</B> color
-	<B>width</B> #
-	<B>end</B>
+USAGE:  <b>border</b> [y|n]
+	<b>color</b> color
+	<b>width</b> #
+	<b>end</b>
 </PRE>
-The <B>color</B> may be either a standard GRASS color, a R:G:B triplet,
+The <b>color</b> may be either a standard GRASS color, a R:G:B triplet,
 or "none". The width is specified in points, unless followed by an "i"
 in which case it is measured in inches.
 The default is a black border box of width 1 point.
-<P>
+<p>
 The border can be turned off completely with the
 &quot;<tt>border&nbsp;n</tt>&quot; instruction. In this case
-the <B>end</B> command should not be given as the
+the <b>end</b> command should not be given as the
 main command will be treated as a single line instruction.
-<P>
+<p>
 
 This example would create a grey border 0.1&quot; wide.
 <PRE>
 EXAMPLE:
-	<B>border</B>  
-	<B>color</B> grey
-	<B>width</B> 0.1i
-	<B>end</B>
+	<b>border</b>  
+	<b>color</b> grey
+	<b>width</b> 0.1i
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="colortable"></a>
-<H2>colortable</H2>
+<h2>colortable</h2>
 
 Prints the color table legend for the raster map layer anywhere on the page.
 <PRE>
-USAGE:	<B>colortable</B> [y|n]
-	<B>where</B> x y
-	<B>raster</B> raster map
-	<B>range</B> minimum maximum
-	<B>width</B> table width
-	<B>height</B> table height (FP legend only)
-	<B>cols</B> table columns
-	<B>font</B> font name
-	<B>fontsize</B> font size
-	<B>color</B> text color
-	<B>nodata</B> [Y|n]
-	<B>tickbar</B> [y|N]
-	<B>discrete</B> [y|n]
-	<B>end</B>
+USAGE:	<b>colortable</b> [y|n]
+	<b>where</b> x y
+	<b>raster</b> raster map
+	<b>range</b> minimum maximum
+	<b>width</b> table width
+	<b>height</b> table height (FP legend only)
+	<b>cols</b> table columns
+	<b>font</b> font name
+	<b>fontsize</b> font size
+	<b>color</b> text color
+	<b>nodata</b> [Y|n]
+	<b>tickbar</b> [y|N]
+	<b>discrete</b> [y|n]
+	<b>end</b>
 </PRE>
 
 For a categorical (CELL) map the color table will create a legend displaying
 the colors for each of a raster map's category values along with its
 associated category label. For a floating point (FCELL or DCELL) map a
 continuous gradient legend will be created.
-<P>
-If <B>raster</B> is omitted, the colortable defaults to the previously
+<p>
+If <b>raster</b> is omitted, the colortable defaults to the previously
 registered raster layer.
 
 The default location for the colortable is immediately below any other
 map legend information, starting at the left margin.
 The default text color is black.
 
-Omitting the <B>colortable</B> instruction would result in
+Omitting the <b>colortable</b> instruction would result in
 no color table.
-<P>
+<p>
 If the colortable is turned off with a &quot;<tt>colortable&nbsp;N</tt>&quot;
-instruction the <B>end</B> command should not be given as the  
+instruction the <b>end</b> command should not be given as the  
 main command will be treated as a single line instruction.
-<P>
+<p>
 See also the <a href="#vlegend">vlegend</a> command for creating vector map
 legends.
 
 
 <h3>Categorical (CELL) Maps</h3>
 
-Adding the <B>nodata N</B> instruction will prevent the "no data" box 
+Adding the <b>nodata N</b> instruction will prevent the "no data" box 
 from being drawn (category based legends only). If you have manually
 added a "no data" label to the cats/ file it will be shown regardless.
-<P> 
-<B>Note</B>:  Be careful about asking for color tables for integer
+<p> 
+<b>Note</b>:  Be careful about asking for color tables for integer
 raster map layers which have many categories, such as elevation.
 This could result in the printing of an extremely long color table!
-In this situation it is useful to use the <B>discrete N</B> instruction
+In this situation it is useful to use the <b>discrete N</b> instruction
 to force a continuous color gradient legend.
-<P>
+<p>
 Be aware that the color table only includes categories which
 have a label. If there are only a few categories, you can use
 <em>r.support</em> to manually add labels. If there are too many categories to
@@ -301,7 +301,7 @@
 
 <h3>Floating point (FCELL and DCELL) Maps</h3>
 
-The legend's <B>range</B> can be adjusted for floating point rasters, but if
+The legend's <b>range</b> can be adjusted for floating point rasters, but if
 set beyond the extent of the map's range be sure that you have set up color 
 rules with <em>r.colors</em> which cover this range.
 
@@ -310,115 +310,115 @@
 <!-- bonus prize for code explorers: you can switch the label placement by
     editing the label_posn variable in ps.map/ps_fclrtbl.c -->
 
-For floating point legends <B>width</B> is width of color
-band only. <B>height</B> is used only for floating point legend.
+For floating point legends <b>width</b> is width of color
+band only. <b>height</b> is used only for floating point legend.
 
-Adding the <B>tickbar Y</B> instruction will change the tick mark style
+Adding the <b>tickbar Y</b> instruction will change the tick mark style
 so that ticks are drawn across the color table instead of protruding out 
 to the right (floating point legends only).
 
-Adding the <B>discrete Y</B> instruction will command the program to treat
+Adding the <b>discrete Y</b> instruction will command the program to treat
 the map as a categorical map. In this way the legend can be created with
 discrete range bands instead of a continuous gradient. You must use the
 <em>r.category</em> or <em>r.support</em> module to set up the range labels
 first.
 
 <BR>
-<P>
+<p>
 This example would print a color table immediately below any other map legend
 information, starting at the left margin, with 4 columns:
 <PRE>
 EXAMPLE:
-	<B>colortable</B> y
-        <B>cols</B> 4
-        <B>width</B> 4
-        <B>end</B>
+	<b>colortable</b> y
+        <b>cols</b> 4
+        <b>width</b> 4
+        <b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="comments"></a>
-<H2>comments</H2>
+<h2>comments</h2>
 
 Prints comments anywhere on the page.
 <PRE>
-USAGE:	<B>comments</B> commentfile
-	<B>where</B> x y
-	<B>font</B> font name
-	<B>fontsize</B> font size
-	<B>color</B> text color
-	<B>end</B>
+USAGE:	<b>comments</b> commentfile
+	<b>where</b> x y
+	<b>font</b> font name
+	<b>fontsize</b> font size
+	<b>color</b> text color
+	<b>end</b>
 </PRE>
 The default location is immediately below the last item item printed,
 starting at the left margin. The default text color is black.
-<P>
+<p>
 If you wish to use parentheses spanning multiple lines you will need to
 quote them with a backslash to prevent the PostScript interpreter from 
-getting confused. e.g. '<B><TT>\(</TT></B>' and '<B><TT>\)</TT></B>'
+getting confused. e.g. '<b><TT>\(</TT></b>' and '<b><TT>\)</TT></b>'
 
-<P>
+<p>
 
 This example prints in blue
-whatever is in the file <EM>veg.comments</EM> starting at
+whatever is in the file <em>veg.comments</em> starting at
 1.5 inches from the left edge of the page and 7.25 inches from the top of
 the page, using a 15/72 inch Helvetica Bold font.
 <PRE>
 EXAMPLE:	
-	<B>raster</B> vegetation
-	<B>comments</B> veg.comments
-	<B>where</B> 1.5 7.25
-	<B>font</B> Helvetica Bold
-	<B>fontsize</B> 15
-	<B>color</B> blue
-	<B>end</B>
+	<b>raster</b> vegetation
+	<b>comments</b> veg.comments
+	<b>where</b> 1.5 7.25
+	<b>font</b> Helvetica Bold
+	<b>fontsize</b> 15
+	<b>color</b> blue
+	<b>end</b>
 </PRE>
 Presumably, the file
-<EM>veg.comments</EM>
+<em>veg.comments</em>
 contain comments
-pertaining to the raster map layer <EM>vegetation</EM>,
+pertaining to the raster map layer <em>vegetation</em>,
 such as "This map was created by classifying a LANDSAT TM image".
-<P>
+<p>
 
 
 <a name="copies"></a>
-<H2>copies</H2>
+<h2>copies</h2>
 
 Specifies the number of copies to be printed.
 <PRE>
-USAGE:	<B>copies</B> n
+USAGE:	<b>copies</b> n
 </PRE>
 Each page will be printed n times.
-<P>
-This instruction is identical to the <EM>copies</EM> command line parameter.
-<P>
+<p>
+This instruction is identical to the <em>copies</em> command line parameter.
+<p>
 
 
 <a name="eps"></a>
-<H2>eps</H2>
+<h2>eps</h2>
 
 Places EPS (Encapsulated PostScript) pictures on the output map.
 <PRE>
-USAGE:	<B>eps</B> east north
-	<B>eps</B> x% y%
-	<B>epsfile</B> EPS file
-	<B>scale</B> #
-	<B>rotate</B> #	
-	<B>masked</B> [y|n]
-	<B>end</B>	
+USAGE:	<b>eps</b> east north
+	<b>eps</b> x% y%
+	<b>epsfile</b> EPS file
+	<b>scale</b> #
+	<b>rotate</b> #	
+	<b>masked</b> [y|n]
+	<b>end</b>	
 </PRE>
 The EPS picture location is entered in the main 
 instruction line by giving either the map 
 coordinates or by using percentages of the geographic region.
 The EPS picture will be <i>centered</i> at the given position.
-The user must specify full EPS file path <B>epsfile</B>.
-The user may also specify the <B>scale</B> of the icon
-(default is 1.0), the <B>rotate</B> i.e. rotation in degrees
+The user must specify full EPS file path <b>epsfile</b>.
+The user may also specify the <b>scale</b> of the icon
+(default is 1.0), the <b>rotate</b> i.e. rotation in degrees
 (default is 0)
-and whether the point is to be <B>masked</B>
+and whether the point is to be <b>masked</b>
 by the current mask.
-(See manual entry for <EM><A HREF="r.mask.html">r.mask</A></EM> 
+(See manual entry for <em><a href="r.mask.html">r.mask</a></em> 
 for more information on the mask.)
-<P>
+<p>
 
 This example would place a EPS file ./epsf/logo.eps
 at the point (E456000 N7890000).  This picture would be
@@ -426,151 +426,151 @@
 in original file and would not be masked by the current mask.
 <PRE>
 EXAMPLE:
-	<B>eps</B> 456000 7890000
-	<B>epsfile</B> ./epsf/logo.eps     
-	<B>scale</B> 3
-	<B>rotate</B> 20	
-	<B>masked</B> n
-	<B>end</B>	
+	<b>eps</b> 456000 7890000
+	<b>epsfile</b> ./epsf/logo.eps     
+	<b>scale</b> 3
+	<b>rotate</b> 20	
+	<b>masked</b> n
+	<b>end</b>	
 </PRE>
 Of course, multiple EPS pictures may be drawn with multiple
-<EM>eps</EM>
+<em>eps</em>
 instructions.
-<P>
+<p>
 
 
 <a name="geogrid"></a>
-<H2>geogrid</H2>
+<h2>geogrid</h2>
 
 Overlays a geographic grid onto the output map.
 <PRE>
-USAGE:	<B>geogrid</B> spacing unit
-	<B>color</B> color
-	<B>numbers</B> # [color]
-	<B>font</B> font name
-	<B>fontsize</B> font size
-	<B>width</B> #
-	<B>end</B>
+USAGE:	<b>geogrid</b> spacing unit
+	<b>color</b> color
+	<b>numbers</b> # [color]
+	<b>font</b> font name
+	<b>fontsize</b> font size
+	<b>width</b> #
+	<b>end</b>
 </PRE>
-The <B>spacing</B> and spacing unit of the geographic grid is given 
-on the main instruction line.  The <B>spacing</B> unit is given as one of <B>d</B> for
-degrees, <B>m</B> for minutes, and <B>s</B> for seconds. 
+The <b>spacing</b> and spacing unit of the geographic grid is given 
+on the main instruction line.  The <b>spacing</b> unit is given as one of <b>d</b> for
+degrees, <b>m</b> for minutes, and <b>s</b> for seconds. 
 The subsection instructions allow the user to specify
-the <B>color</B> of the geographic grid lines,
-whether coordinate <B>numbers</B> should appear
-on the geographic grid lines, the <B>width</B>
+the <b>color</b> of the geographic grid lines,
+whether coordinate <b>numbers</b> should appear
+on the geographic grid lines, the <b>width</b>
 of the lines (accepts decimal points [floating points] 
 as well as integers), and
 if they should appear every grid line (1), every other grid line 
 (2), etc., and what color the numbers should be.  The defaults are
 black grid lines, unnumbered.
 
-<P>
+<p>
 
-NOTE: The <B>geogrid</B> draws grid numbers on the east and south borders of the map.
+NOTE: The <b>geogrid</b> draws grid numbers on the east and south borders of the map.
 
-<P>
+<p>
 
 This example would overlay a blue geographic grid with a spacing of 30 minutes
 onto the output map.  Alternate grid
 lines would be numbered with yellow numbers.
 <PRE>
 EXAMPLE:
-	<B>geogrid</B> 30 m   
-	<B>color</B> blue
-	<B>numbers</B> 2 yellow
-	<B>end</B>
+	<b>geogrid</b> 30 m   
+	<b>color</b> blue
+	<b>numbers</b> 2 yellow
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="greyrast"></a>
-<H2>greyrast</H2>
+<h2>greyrast</h2>
 
 Selects a raster map layer for output in shades of grey.
 <PRE>
-USAGE:	<B>greyrast</B> mapname
+USAGE:	<b>greyrast</b> mapname
 </PRE>
 For each 
-<EM>ps.map</EM>
+<em>ps.map</em>
 run, only one raster map layer can be requested (using either the
-<EM>greyrast</EM> or the <EM>raster</EM> instruction).
-<P>
+<em>greyrast</em> or the <em>raster</em> instruction).
+<p>
 
 
 <a name="grid"></a>
-<H2>grid</H2>
+<h2>grid</h2>
 
 Overlays a coordinate grid onto the output map.
 <PRE>
-USAGE:	<B>grid</B> spacing
-	<B>color</B> color
-	<B>numbers</B> # [color]
-	<B>cross</B> cross size
-	<B>font</B> font name
-	<B>fontsize</B> font size
-	<B>width</B> #
-	<B>end</B>
+USAGE:	<b>grid</b> spacing
+	<b>color</b> color
+	<b>numbers</b> # [color]
+	<b>cross</b> cross size
+	<b>font</b> font name
+	<b>fontsize</b> font size
+	<b>width</b> #
+	<b>end</b>
 </PRE>
-The <B>spacing</B> of the grid is given (in the geographic coordinate
+The <b>spacing</b> of the grid is given (in the geographic coordinate
 system units) on the main instruction line.  The subsection instructions
 allow the user to specify
-the <B>color</B> of the grid lines,
-whether coordinate <B>numbers</B> should appear
+the <b>color</b> of the grid lines,
+whether coordinate <b>numbers</b> should appear
 on the grid lines, and if they
 should appear every grid line (1), every other grid line 
 (2), etc., and what color the numbers should be.  
-The <B>cross</B> argument draws grid intersection crosses instead of grid lines, 
+The <b>cross</b> argument draws grid intersection crosses instead of grid lines, 
 with cross size given in geographic coordinate system units.
 The defaults are black grid lines, unnumbered.
 
-<P>
+<p>
 
 This example would overlay a green grid with a spacing of 10000 meters
 (for a metered database, like UTM) onto the output map.  Alternate grid
 lines would be numbered with red numbers.
 <PRE>
 EXAMPLE:
-	<B>grid</B> 10000   
-	<B>color</B> green
-	<B>numbers</B> 2 red
-	<B>end</B>
+	<b>grid</b> 10000   
+	<b>color</b> green
+	<b>numbers</b> 2 red
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="group"></a>
-<H2>group</H2>
+<h2>group</h2>
 
 Selects an RGB imagery group for output.
 <PRE>
-USAGE:	<B>group</B> <EM>groupname</EM>
+USAGE:	<b>group</b> <em>groupname</em>
 </PRE>
-This is similar to <EM>raster</EM>, except that it uses an imagery group
+This is similar to <em>raster</em>, except that it uses an imagery group
 instead of a raster map layer. The group must contain three raster map
 layers, comprising the red, green and blue bands of the image.
-<P>
+<p>
 
 
 <a name="header"></a>
-<H2>header</H2>
+<h2>header</h2>
 
 Prints the map header above the map.
 <PRE>
-USAGE:	<B>header</B>
-	<B>file</B> header file
-	<B>font</B> font name
-	<B>fontsize</B> font size
-	<B>color</B> text color
-	<B>end</B>
+USAGE:	<b>header</b>
+	<b>file</b> header file
+	<b>font</b> font name
+	<b>fontsize</b> font size
+	<b>color</b> text color
+	<b>end</b>
 </PRE>
-If the <EM>file</EM> sub-instruction is absent the header will consist
+If the <em>file</em> sub-instruction is absent the header will consist
 of the map's title <!-- from hist file -->
 and the location's description.<!-- PERMANENT/MYNAME -->
 The text will be centered on the page above the map.
 The default text color is black.
-<P>
-If the <EM>file</EM> sub-instruction is given the header will consist
+<p>
+If the <em>file</em> sub-instruction is given the header will consist
 of the text in the text file specified, with some special formatting keys:
 
 <ul>
@@ -602,113 +602,113 @@
 %_
 </pre></div>
 
-<P>
+<p>
 
-This example prints (in red) whatever is in the file <EM>soils.hdr</EM> above
+This example prints (in red) whatever is in the file <em>soils.hdr</em> above
 the map, using a 20/72 inch <tt>Courier</tt> font.
 <PRE>
 EXAMPLE:	
-	<B>header</B>
-	<B>file</B> soils.hdr
-	<B>font</B> Courier
-	<B>fontsize</B> 20
-	<B>color</B> red
-	<B>end</B>
+	<b>header</b>
+	<b>file</b> soils.hdr
+	<b>font</b> Courier
+	<b>fontsize</b> 20
+	<b>color</b> red
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="labels"></a>
-<H2>labels</H2>
+<h2>labels</h2>
 
 Selects a labels file for output (see manual entry for
-<EM>
-<A HREF="v.label.html">v.label</A>
-).</EM>
+<em>
+<a href="v.label.html">v.label</a>
+).</em>
 <PRE>
-USAGE:	<B>labels</B>  labelfile
-	<B>font</B> font name
-	<B>end</B>
+USAGE:	<b>labels</b>  labelfile
+	<b>font</b> font name
+	<b>end</b>
 </PRE>
-<P>
+<p>
 NOTE: ps.map can read new option 'ROTATE:' from labels file, which
 specifies counter clockwise rotation in degrees. 
-<P>
+<p>
 This example would paint labels from the labels file called
-<EM>town.names</EM>.  Presumably, these labels would indicate the names of
+<em>town.names</em>.  Presumably, these labels would indicate the names of
 towns on the map.
 <PRE>
 EXAMPLE:	
-	<B>labels</B> town.names
-	<B>end</B>
+	<b>labels</b> town.names
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="line"></a>
-<H2>line</H2>
+<h2>line</h2>
 
 Draws lines on the output map.
 <PRE>
-USAGE:	<B>line</B> east north east north
-	<B>line</B> x% y% x% y%
-	<B>color</B> color
-	<B>width</B> #
-	<B>masked</B> [y|n]
-	<B>end</B>
+USAGE:	<b>line</b> east north east north
+	<b>line</b> x% y% x% y%
+	<b>color</b> color
+	<b>width</b> #
+	<b>masked</b> [y|n]
+	<b>end</b>
 </PRE>
 The beginning and ending points of the line are entered on the main
 instruction.  These points can be defined either by map coordinates or
 by using percentages of the geographic region.
 The user may also specify line
-<B>color</B>,
-<B>width</B>
+<b>color</b>,
+<b>width</b>
 in pixels (accepts decimal points [floating points] as well as integers),
-and if the line is to be <B>masked</B> by the current mask.
-(See manual entry for <EM><A HREF="r.mask.html">r.mask</A>
-</EM> for more information on the mask.)
-<P>
+and if the line is to be <b>masked</b> by the current mask.
+(See manual entry for <em><a href="r.mask.html">r.mask</a>
+</em> for more information on the mask.)
+<p>
 
 This example would draw a yellow line from the point x=10% y=80%
 to the point x=30% y=70%. This line
 would be 2 pixels wide and would appear even if there is a mask.
 <PRE>
 EXAMPLE:
-	<B>line</B> 10% 80% 30% 70%
-	<B>color</B> yellow
-	<B>width</B> 2
-	<B>masked</B> n
-	<B>end</B>
+	<b>line</b> 10% 80% 30% 70%
+	<b>color</b> yellow
+	<b>width</b> 2
+	<b>masked</b> n
+	<b>end</b>
 </PRE>
 Of course, multiple lines may be drawn with multiple
-<EM>line</EM>
+<em>line</em>
 instructions.
-<P>
+<p>
 
 
 <a name="mapinfo"></a>
-<H2>mapinfo</H2>
+<h2>mapinfo</h2>
 
 Prints the portion of the map legend containing the scale, grid and
 region information, on or below the map.
 <PRE>
-USAGE:	<B>mapinfo</B>
-	<B>where</B> x y
-	<B>font</B> font name
-	<B>fontsize</B> font size
-	<B>color</B> text color
-	<B>background</B> box color|none
-	<B>border</B> color|none
-	<B>end</B>
+USAGE:	<b>mapinfo</b>
+	<b>where</b> x y
+	<b>font</b> font name
+	<b>fontsize</b> font size
+	<b>color</b> text color
+	<b>background</b> box color|none
+	<b>border</b> color|none
+	<b>end</b>
 </PRE>
 The default location is immediately below the map,
 starting at the left edge of the map.
 The default text color is black.
 The default background box color is white.
-<P>
-<EM>border</EM> will draw a border around the legend using the specified color.
+<p>
+<em>border</em> will draw a border around the legend using the specified color.
  (see <a href="#NAMED_COLORS">NAMED COLORS</a>)
-<P>
+<p>
 
 This example prints (in brown) the scale, grid and region information
 immediately below the map and starting 1.5 inches from the left edge
@@ -716,364 +716,364 @@
 
 <PRE>
 EXAMPLE:
-	<B>mapinfo</B>
-	<B>where</B> 1.5 0
-	<B>font</B> Courier
-	<B>fontsize</B> 12
-	<B>color</B> brown
-	<B>end</B>
+	<b>mapinfo</b>
+	<b>where</b> 1.5 0
+	<b>font</b> Courier
+	<b>fontsize</b> 12
+	<b>color</b> brown
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="maploc"></a>
-<H2>maploc</H2>
+<h2>maploc</h2>
 
 Positions the map on the page.
 <PRE>
-USAGE:	<B>maploc</B>  x y [width height]
+USAGE:	<b>maploc</b>  x y [width height]
 </PRE>
-The upper left corner of the map will be positioned <EM>x</EM> inches from
-the left edge of the page and <EM>y</EM> inches from the top of the page.
-If <EM>width</EM> and <EM>height</EM> (in inches) are present, the map will be
+The upper left corner of the map will be positioned <em>x</em> inches from
+the left edge of the page and <em>y</em> inches from the top of the page.
+If <em>width</em> and <em>height</em> (in inches) are present, the map will be
 rescaled, if necessary, to fit.
 
-<P>
+<p>
 
 This example positions the upper left corner of the map 2.0 inches from
 the left edge and 3.5 inches from the top edge of the map.
 <PRE>
 EXAMPLE:
-	<B>maploc</B> 2.0 3.5
+	<b>maploc</b> 2.0 3.5
 </PRE>
-<P>
+<p>
 
 
 <a name="maskcolor"></a>
-<H2>maskcolor</H2>
+<h2>maskcolor</h2>
 
 Color to be used for mask.
 <PRE>
-USAGE:	<B>maskcolor</B>  color
+USAGE:	<b>maskcolor</b>  color
 </PRE>
 
 
 <a name="outline"></a>
-<H2>outline</H2>
+<h2>outline</h2>
 
 Outlines the areas of a raster map layer with a specified color.
 <PRE>
-USAGE:	<B>outline</B>
-	<B>color</B>  color
-	<B>width</B>  width of line in pixels
-	<B>end</B>
+USAGE:	<b>outline</b>
+	<b>color</b>  color
+	<b>width</b>  width of line in pixels
+	<b>end</b>
 </PRE>
 Distinct areas of the raster map will be separated from each other visually
 by drawing a border (or outline) in the specified
-<B>color</B>
+<b>color</b>
 (default: black). For 
-<B>width</B>
+<b>width</b>
 the program accepts decimal points [floating points] as well as integers.
 Note: it is
-important the user enter the instruction <B>end</B> even if a color is not
+important the user enter the instruction <b>end</b> even if a color is not
 chosen.
 (It is hoped that in the future the outline of a different raster map
 layer other than the one currently being painted may be placed on the map.)
 
-<P>
+<p>
 
 This example would outline the category areas of the
-<EM>soils</EM>
+<em>soils</em>
 raster map layer
 in grey.
 <PRE>
 EXAMPLE:	
-	<B>raster</B> soils
-	<B>outline</B>   
-	<B>color</B> grey
-	<B>width</B> 2
-	<B>end</B>
+	<b>raster</b> soils
+	<b>outline</b>   
+	<b>color</b> grey
+	<b>width</b> 2
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="paper"></a>
-<H2>paper</H2>
+<h2>paper</h2>
 
 Specifies paper size and margins.
 <PRE>
-USAGE:	<B>paper</B> paper name
-	<B>height</B> #
-	<B>width</B> #
-	<B>left</B> #
-	<B>right</B> #
-	<B>bottom</B> #
-	<B>top</B> #
-	<B>end</B>	
+USAGE:	<b>paper</b> paper name
+	<b>height</b> #
+	<b>width</b> #
+	<b>left</b> #
+	<b>right</b> #
+	<b>bottom</b> #
+	<b>top</b> #
+	<b>end</b>	
 </PRE>
-<B>paper</B> may select predefined paper name
+<b>paper</b> may select predefined paper name
  (a4,a3,a2,a1,a0,us-legal,us-letter,us-tabloid).
  Default paper size is a4. The measures are defined in <em>inches</em>.
-<B>left</B>, <B>right</B>, <B>bottom</B> and <B>top</B> are paper margins.
+<b>left</b>, <b>right</b>, <b>bottom</b> and <b>top</b> are paper margins.
 If the plot is rotated with the <b>-r</b> command line flag, measures
 are applied to the <em>rotated</em> page.
-<P>
+<p>
 
 <PRE>
 EXAMPLE:
-	<B>paper</B> a3
-	<B>end</B>	
+	<b>paper</b> a3
+	<b>end</b>	
 </PRE>
-<P>
+<p>
 <PRE>
 EXAMPLE:
-	<B>paper</B>
-	<B>width</B> 10
-	<B>height</B> 10
-	<B>left</B> 2
-	<B>right</B> 2
-	<B>bottom</B> 2
-	<B>top</B> 2
-	<B>end</B>	
+	<b>paper</b>
+	<b>width</b> 10
+	<b>height</b> 10
+	<b>left</b> 2
+	<b>right</b> 2
+	<b>bottom</b> 2
+	<b>top</b> 2
+	<b>end</b>	
 </PRE>
-<P>
+<p>
 
 
 <a name="point"></a>
-<H2>point</H2>
+<h2>point</h2>
 
 Places additional points or icons on the output map.
 <PRE>
-USAGE:	<B>point</B> east north
-	<B>point</B> x% y%
-	<B>color</B> color
-	<B>fcolor</B> color
-	<B>symbol</B> symbol group/name
-	<B>size</B> #
-	<B>rotate</B> #
-	<B>masked</B> [y|n]
-	<B>end</B>	
+USAGE:	<b>point</b> east north
+	<b>point</b> x% y%
+	<b>color</b> color
+	<b>fcolor</b> color
+	<b>symbol</b> symbol group/name
+	<b>size</b> #
+	<b>rotate</b> #
+	<b>masked</b> [y|n]
+	<b>end</b>	
 </PRE>
 The point location is entered in the main instruction line by giving either the map 
 coordinates or by using percentages of the geographic region.
-The user may also specify the point <B>color</B>,
-the <B>size</B> of symbol in points,
+The user may also specify the point <b>color</b>,
+the <b>size</b> of symbol in points,
 the rotation angle (in degrees CCW), 
-and whether the point is to be <B>masked</B> by the current mask.
-(See manual entry for <EM> <A HREF="r.mask.html">r.mask</A>
-</EM> for more information on the mask.)
-<P>
+and whether the point is to be <b>masked</b> by the current mask.
+(See manual entry for <em> <a href="r.mask.html">r.mask</a>
+</em> for more information on the mask.)
+<p>
 
 This example would place a purple diamond (from icon file
-<EM>diamond</EM>) at the point (E456000 N7890000).  This diamond would be the 
+<em>diamond</em>) at the point (E456000 N7890000).  This diamond would be the 
 the size of a 15 points and would not be masked by the current mask.
 <PRE>
 EXAMPLE:
-	<B>point</B> 456000 7890000
-	<B>fcolor</B> purple     
-	<B>color</B> black     
-	<B>symbol</B> basic/diamond
-	<B>size</B> 15
-	<B>masked</B> n
-	<B>end</B>	
+	<b>point</b> 456000 7890000
+	<b>fcolor</b> purple     
+	<b>color</b> black     
+	<b>symbol</b> basic/diamond
+	<b>size</b> 15
+	<b>masked</b> n
+	<b>end</b>	
 </PRE>
 Of course, multiple points may be drawn with multiple
-<EM>point</EM>
+<em>point</em>
 instructions.
-<P>
+<p>
 
 
 <a name="psfile"></a>
-<H2>psfile</H2>
+<h2>psfile</h2>
 
 Copies a file containing PostScript commands into the output file.
 
-<P>
+<p>
 
-<B>Note:</B>
-<EM>ps.map</EM>
+<b>Note:</b>
+<em>ps.map</em>
 will not search for this file.  The user must be in the
-correct directory or specify the full path on the <B>psfile</B> instruction.
+correct directory or specify the full path on the <b>psfile</b> instruction.
 (Note to /bin/csh users: ~ won't work with this instruction).
 <PRE>
-USAGE:	<B>psfile</B> filename
+USAGE:	<b>psfile</b> filename
 </PRE>
 This example copies the file "logo.ps" into the output file.
 <PRE>
 EXAMPLE:	
-	<B>psfile</B> logo.ps
+	<b>psfile</b> logo.ps
 </PRE>
-<P>
+<p>
 
 
 <a name="raster"></a>
-<H2>raster</H2>
+<h2>raster</h2>
 
 Selects a raster map layer for output.
 <PRE>
-USAGE:	<B>raster</B> mapname
+USAGE:	<b>raster</b> mapname
 </PRE>
-For each <EM>ps.map</EM> run, only one raster map layer (or set
+For each <em>ps.map</em> run, only one raster map layer (or set
 of layers or imagery group; see below) can be requested. If no
 raster map layer is requested, a completely white map will be
 produced. It can be useful to select no raster map layer in
 order to provide a white background for vector maps.
-<P>
-Note that an imagery group selected with the <EM>group</EM>
+<p>
+Note that an imagery group selected with the <em>group</em>
 option, or a set of three raster layers selected with the
-<EM>rgb</EM> option, count as a raster map layer for the
+<em>rgb</em> option, count as a raster map layer for the
 purposes of the preceding paragraph.
-<P>
+<p>
 The PostScript file's internal title will be set to the raster map's
 title, which in turn may be set with the <em>r.suppport</em> module.
-<P>
-This example would paint a map of the raster map layer <EM>soils</EM>.
+<p>
+This example would paint a map of the raster map layer <em>soils</em>.
 
 <PRE>
 EXAMPLE:	
-	<B>raster</B> soils
+	<b>raster</b> soils
 </PRE>
-<P>
+<p>
 
 
 <a name="read"></a>
-<H2>read</H2>
+<h2>read</h2>
 
-Provides <EM>ps.map</EM> with a previously prepared input stream.
+Provides <em>ps.map</em> with a previously prepared input stream.
 <PRE>
-USAGE:	<B>read</B> previously prepared UNIX file
+USAGE:	<b>read</b> previously prepared UNIX file
 </PRE>
 Mapping instructions can be placed into a file and read into
-<EM>ps.map.</EM>
+<em>ps.map.</em>
 
-<P>
+<p>
 
-<B>Note:</B>
-<EM>ps.map</EM>
+<b>Note:</b>
+<em>ps.map</em>
 will not search for this file.  The user must be in the
-correct directory or specify the full path on the <B>read</B> instruction.
+correct directory or specify the full path on the <b>read</b> instruction.
 (Note to /bin/csh users: ~ won't work with this instruction).
 
-<P>
+<p>
 
-This example reads the UNIX file <EM>pmap.roads</EM> into <EM>ps.map</EM>.
-This file may contain all the <EM>ps.map</EM> instructions for placing
-the vector map layer <EM>roads</EM> onto the output map.
+This example reads the UNIX file <em>pmap.roads</em> into <em>ps.map</em>.
+This file may contain all the <em>ps.map</em> instructions for placing
+the vector map layer <em>roads</em> onto the output map.
 <PRE>
 EXAMPLE: 
-	<B>read</B> pmap.roads
+	<b>read</b> pmap.roads
 </PRE>
 The user may have created this file because this vector map layer
-is particularly useful for many <EM>ps.map</EM>
-outputs.  By using the <B>read</B> option, the user need not enter all the input
-for the <B>vector</B> instruction, but simply <B>read</B> the previously prepared
+is particularly useful for many <em>ps.map</em>
+outputs.  By using the <b>read</b> option, the user need not enter all the input
+for the <b>vector</b> instruction, but simply <b>read</b> the previously prepared
 file with the correct instructions.
-<P>
+<p>
 
 
 <a name="rectangle"></a>
-<H2>rectangle</H2>
+<h2>rectangle</h2>
 
 Draws rectangle on the output map.
 <PRE>
-USAGE:	<B>rectangle</B> east north east north
-	<B>rectangle</B> x% y% x% y%
-	<B>color</B> color
-	<B>fcolor</B> fill color	
-	<B>width</B> #
-	<B>masked</B> [y|n]
-	<B>end</B>
+USAGE:	<b>rectangle</b> east north east north
+	<b>rectangle</b> x% y% x% y%
+	<b>color</b> color
+	<b>fcolor</b> fill color	
+	<b>width</b> #
+	<b>masked</b> [y|n]
+	<b>end</b>
 </PRE>
 The two corners of the rectangle are entered on the main
 instruction.  These points can be defined either by map coordinates or
 by using percentages of the geographic region.
 The user may also specify line
-<B>color</B>, fill color <B>fcolor</B>, <B>width</B>
+<b>color</b>, fill color <b>fcolor</b>, <b>width</b>
 in pixels (accepts decimal points [floating points] as well as integers),
-and if the rectangle is to be <B>masked</B> by the current mask.
-(See manual entry for <EM><A HREF="r.mask.html">r.mask</A></EM>
+and if the rectangle is to be <b>masked</b> by the current mask.
+(See manual entry for <em><a href="r.mask.html">r.mask</a></em>
 for more information on the mask.)
 <BR>
-Multiple rectangles may be drawn by using multiple <EM>rectangle</EM> instructions.
-<P>
+Multiple rectangles may be drawn by using multiple <em>rectangle</em> instructions.
+<p>
 
 This example would draw a yellow rectangle filled by green from the point x=10% y=80%
 to the point x=30% y=70%. This line
 would be 2 pixels wide and would appear even if there is a mask.
 <PRE>
 EXAMPLE:
-	<B>rectangle</B> 10% 80% 30% 70%
-	<B>color</B> yellow
-	<B>fcolor</B> green	
-	<B>width</B> 2
-	<B>masked</B> n
-	<B>end</B>
+	<b>rectangle</b> 10% 80% 30% 70%
+	<b>color</b> yellow
+	<b>fcolor</b> green	
+	<b>width</b> 2
+	<b>masked</b> n
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="region"></a>
-<H2>region</H2>
+<h2>region</h2>
 
 Places the outline of a smaller geographic region
 on the output.
 <PRE>
-USAGE:	<B>region</B> regionfile
-	<B>color</B> color
-	<B>width</B> #
-	<B>end</B>
+USAGE:	<b>region</b> regionfile
+	<b>color</b> color
+	<b>width</b> #
+	<b>end</b>
 </PRE>
-Geographic region settings are created and saved using <EM> the 
-<A HREF="g.region.html">g.region</A></EM> module.
-The <EM>ps.map</EM> <EM>region</EM> option can be used to show an outline of
-a smaller region which was printed on a separate run of <EM>ps.map</EM>
+Geographic region settings are created and saved using <em> the 
+<a href="g.region.html">g.region</a></em> module.
+The <em>ps.map</em> <em>region</em> option can be used to show an outline of
+a smaller region which was printed on a separate run of <em>ps.map</em>
 on other user-created maps.
-<P>
-The user can specify the <B>color</B>
-and the <B>width</B> in pixel units (accepts decimal points
+<p>
+The user can specify the <b>color</b>
+and the <b>width</b> in pixel units (accepts decimal points
 [floating points] as well as integers) of the outline.
 The default is a black border of one pixel width.
-<P>
+<p>
 This example would place a white outline, 2 pixels wide, of the
-geographic region called <EM>fire.zones</EM> onto the output map.
+geographic region called <em>fire.zones</em> onto the output map.
 This geographic region would have been created and saved using 
-<EM><A HREF="g.region.html">g.region</A></EM>.
+<em><a href="g.region.html">g.region</a></em>.
 <PRE>
 EXAMPLE:
-	<B>region</B> fire.zones
-	<B>color</B> white
-	<B>width</B> 2
-	<B>end</B>
+	<b>region</b> fire.zones
+	<b>color</b> white
+	<b>width</b> 2
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="rgb"></a>
-<H2>rgb</H2>
+<h2>rgb</h2>
 
 Selects three raster map layers for output as an RGB color image.
 <PRE>
-USAGE:	<B>rgb</B> <EM>red</EM> <EM>green</EM> <EM>blue</EM>
+USAGE:	<b>rgb</b> <em>red</em> <em>green</em> <em>blue</em>
 </PRE>
-This is similar to <EM>raster</EM>, except that it uses three
+This is similar to <em>raster</em>, except that it uses three
 raster map layers instead of a single layer. The three layers
-are composed to form a color image, similar to <EM>d.rgb</EM>.
-<P>
+are composed to form a color image, similar to <em>d.rgb</em>.
+<p>
 
 For each layer, only one of the components of the layer's color
 table is used: the red component for the red layer, and so on. 
 This will give the desired result if all of the layers have a
 grey-scale color table, or if each layer's color table uses the
 hue appropriate to the layer.
-<P>
+<p>
 
 
 <a name="scale"></a>
-<H2>scale</H2>
+<h2>scale</h2>
 
 Selects a scale for the output map.
 <PRE>
-USAGE:	<B>scale</B> <EM>scale</EM>
+USAGE:	<b>scale</b> <em>scale</em>
 </PRE>
 The scale can be selected either as:
 <DL>
@@ -1083,193 +1083,193 @@
 <DD>an absolute width of the printed map, e.g. 10 inches;
 <DT> 
 <DD>the number of printed paper panels, e.g. 3 panels
-<EM>.I</EM>
+<em>.I</em>
 (at the present time, only 1 panel is supported);
 <DT> 
 <DD>the number of miles per inch, e.g. 1 inch equals 4 miles.
 </DD>
 </DL>
-<P>
+<p>
 
 This example would set the scale of the map to 1 unit = 25000
 units.
 <PRE>
 EXAMPLE:	
-	<B>scale</B> 1:25000
+	<b>scale</b> 1:25000
 </PRE>
-<P>
-This instruction is identical to the <EM>scale</EM> command line parameter.
+<p>
+This instruction is identical to the <em>scale</em> command line parameter.
 <BR>
 <em>NOTE: Using "scale" from the command line is depreciated and while
 still provided for compatibility reasons it will be removed in the future.
 Please use the "scale" mapping instruction instead.</em>
-<P>
+<p>
 
 
 <a name="scalebar"></a>
-<H2>scalebar</H2>
+<h2>scalebar</h2>
 
 Draws a scalebar on the map.
 <PRE>
-USAGE:	<B>scalebar</B> [f|s]
-	<B>where</B> x y
-	<B>length</B> overall distance in map units
-	<B>units</B> [auto|meters|kilometers|feet|miles|nautmiles]
-	<B>height</B> scale height in inches
-	<B>segment</B> number of segments
-	<B>numbers</B> #
-	<B>fontsize</B> font size
-	<B>background</B> [Y|n]
-	<B>end</B>
+USAGE:	<b>scalebar</b> [f|s]
+	<b>where</b> x y
+	<b>length</b> overall distance in map units
+	<b>units</b> [auto|meters|kilometers|feet|miles|nautmiles]
+	<b>height</b> scale height in inches
+	<b>segment</b> number of segments
+	<b>numbers</b> #
+	<b>fontsize</b> font size
+	<b>background</b> [Y|n]
+	<b>end</b>
 </PRE>
 Draw one of two types of scale bar.
 Fancy (f) draws alternating black and white scale boxes.
 Simple (s) draws a plain line scale. The default type is fancy.
 
-The subsection instructions allow the user to set <B>where</B> the scalebar
-is placed, the <B>length</B> of the scalebar (in geographic coordinate
-system units, or those given by <B>units</B>),
+The subsection instructions allow the user to set <b>where</b> the scalebar
+is placed, the <b>length</b> of the scalebar (in geographic coordinate
+system units, or those given by <b>units</b>),
 <!-- bonus prize for code explorers: you can use km and nm abbreviations
      for kilometers and nautmiles units -->
-the <B>height</B> of the scalebar in inches, and the number of
-<B>segments</B> (or tics for simple). The <B>number</B> of annotations
+the <b>height</b> of the scalebar in inches, and the number of
+<b>segments</b> (or tics for simple). The <b>number</b> of annotations
 numbers every n-th segment.
 
-The <B>background</B> command can turn off the background box for the text.
-<P>
-The scalebar <B>length</B> is the only required argument. The defaults are a
+The <b>background</b> command can turn off the background box for the text.
+<p>
+The scalebar <b>length</b> is the only required argument. The defaults are a
 fancy scalebar with 4 segments, each segment labeled, and a height of 0.1
 inches. The default location is 2 inches from the top of the page and
 halfway across.
-<P>
+<p>
 NOTE: The scalebar is centered on the location given.
-<P>
+<p>
 This example draws a simple scalebar 1000 meters (for a metered database,
 like UTM) long, with tics every 200 meters, labeled every second tic.
 The scalebar is drawn 5 inches from the top and 4 inches from the left
 and is 0.25 inches high.
 <PRE>
 EXAMPLE:
-	<B>scalebar</B> s
-	<B>where</B> 4 5
-	<B>length</B> 1000
-	<B>height</B> 0.25
-	<B>segment</B> 5
-	<B>numbers</B> 2
-	<B>end</B>
+	<b>scalebar</b> s
+	<b>where</b> 4 5
+	<b>length</b> 1000
+	<b>height</b> 0.25
+	<b>segment</b> 5
+	<b>numbers</b> 2
+	<b>end</b>
 </PRE>
 
 
 <a name="setcolor"></a>
-<H2>setcolor</H2>
+<h2>setcolor</h2>
 
 Overrides the color assigned to one or more categories
 of the raster map layer.
 <PRE>
-USAGE:	<B>setcolor</B> cat(s) color
+USAGE:	<b>setcolor</b> cat(s) color
 </PRE>
 This example would set the color for categories 2,5 and 8 of the raster
-map layer <EM>watersheds</EM> to white and category 10 to green.
-(<B>NOTE</B>: no spaces are inserted between the category values.)
+map layer <em>watersheds</em> to white and category 10 to green.
+(<b>NOTE</b>: no spaces are inserted between the category values.)
 <PRE>
 EXAMPLE:	
-	<B>raster</B> watersheds
-	<B>setcolor</B> 2,5,8 white
-	<B>setcolor</B> 10 green
+	<b>raster</b> watersheds
+	<b>setcolor</b> 2,5,8 white
+	<b>setcolor</b> 10 green
 </PRE>
 Of course,
-<EM>setcolor</EM>
+<em>setcolor</em>
 can be requested more than once to override the default color for additional
 categories.  More than one category can be changed for each request by listing
 all the category values separated by commas (but with no spaces). Also ranges
 can be included, for example "1,2,6-10,12". Colors for "<tt>null</tt>" and the
 "<tt>default</tt>" (i.e. out-of-range) color may also be reassigned.
-<P>
+<p>
 
 
 <a name="text"></a>
-<H2>text</H2>
+<h2>text</h2>
 
 Places text on the map.
 <PRE>
-USAGE:	<B>text</B>  east north text
-	<B>text</B>  x% y% text
-	<B>font</B> fontname
-	<B>color</B> color|none
-	<B>width</B> #
-	<B>hcolor</B> color|none
-	<B>hwidth</B> #
-	<B>background</B> color|none
-	<B>border</B> color|none
-	<B>fontsize</B> font size
-	<B>size</B> #
-	<B>ref</B> reference point
-	<B>rotate</B> degrees CCW
-	<B>xoffset</B> #
-	<B>yoffset</B> #
-	<B>opaque</B> [y|n]
-	<B>end</B>
+USAGE:	<b>text</b>  east north text
+	<b>text</b>  x% y% text
+	<b>font</b> fontname
+	<b>color</b> color|none
+	<b>width</b> #
+	<b>hcolor</b> color|none
+	<b>hwidth</b> #
+	<b>background</b> color|none
+	<b>border</b> color|none
+	<b>fontsize</b> font size
+	<b>size</b> #
+	<b>ref</b> reference point
+	<b>rotate</b> degrees CCW
+	<b>xoffset</b> #
+	<b>yoffset</b> #
+	<b>opaque</b> [y|n]
+	<b>end</b>
 </PRE>
 The user specifies where the text will be placed by
 providing map coordinates or percentages of the geographic region.
 The text follows these coordinates on the same instruction line.
 More than one line of text can be specified by notating the end of a line with
-<B>\n</B>
-(e.g. USA<B>\n</B>CERL).
-<P>
+<b>\n</b>
+(e.g. USA<b>\n</b>CERL).
+<p>
 The user can then specify various text features:
-<P>
-<B>font:</B>
+<p>
+<b>font:</b>
 the PostScript font. Common possibilities are listed at the start of this
 help page. The default is <tt>Helvetica</tt>.
-<P>
-<B>color</B>
+<p>
+<b>color</b>
 (see <a href="#NAMED_COLORS">NAMED COLORS</a>);
-<P>
-<B>width</B>
+<p>
+<b>width</b>
 of the lines used to draw the text to make thicker letters
 (accepts decimal points [floating points] as well as integers);
-<P>
-<B>size</B> and <B>fontsize.</B>&nbsp;
-<B>size</B> gives the vertical height of the letters in meters on the
+<p>
+<b>size</b> and <b>fontsize.</b>&nbsp;
+<b>size</b> gives the vertical height of the letters in meters on the
 ground (text size will grow or shrink depending on the scale at which
-the map is painted). Alternatively <B>fontsize</B> can set the font
-size directly. If neither <B>size</B> or <B>fontsize</B> is given, a 
+the map is painted). Alternatively <b>fontsize</b> can set the font
+size directly. If neither <b>size</b> or <b>fontsize</b> is given, a 
 default font size of 10 will be used;
-<P>
-the highlight color (<B>hcolor</B>) and
-the width of the highlight color (<B>hwidth</B>);
-<P>
-the text-enclosing-box <B>background</B> color;
-the text box <B>border</B> color;
-<P>
-<B>ref.</B>
+<p>
+the highlight color (<b>hcolor</b>) and
+the width of the highlight color (<b>hwidth</b>);
+<p>
+the text-enclosing-box <b>background</b> color;
+the text box <b>border</b> color;
+<p>
+<b>ref.</b>
 This reference point specifies the text handle - what
 part of the text should be placed on the location specified by the map
 coordinates.  Reference points can refer to:
 [lower|upper|center] [left|right|center] of the text to be printed;
 The default is center center, i.e the text is centered on the reference point.
-<P>
-<B>rotate</B>
+<p>
+<b>rotate</b>
 sets the text rotation angle, measured in degrees counter-clockwise.
-<P>
-<B>yoffset</B>,
+<p>
+<b>yoffset</b>,
 which provides finer placement of text by shifting the
 text a vertical distance in pixels from the specified north.  The vertical 
 offset will shift the location to the south if positive, north if negative;
-<P>
-<B>xoffset</B>,
+<p>
+<b>xoffset</b>,
 which shifts the text a horizontal distance in pixels from
 the specified east The horizontal offset will shift the location east if 
 positive, west if negative;
-<P>
-<B>opaque</B>,
-whether or not the text should be <B>opaque</B> to vectors.  Entering <B>no</B>
+<p>
+<b>opaque</b>,
+whether or not the text should be <b>opaque</b> to vectors.  Entering <b>no</b>
 to the opaque option will allow the user to see any vectors which go
 through the text's background box.  Otherwise, they will end at the box's edge.
-<P>
+<p>
 <BR>
-The following example would place the text <EM>SPEARFISH LAND COVER</EM>
+The following example would place the text <em>SPEARFISH LAND COVER</em>
 at the coordinates E650000 N7365000. The text would be a total of
 3 pixels wide (2 pixels of red text and 1 pixel black highlight), have a white
 background enclosed in a red box, and be 500 meters in size.  The lower right
@@ -1277,79 +1277,79 @@
 vectors on the map would stop at the border of this text.
 <PRE>
 EXAMPLE:	
-	<B>text</B> 650000 7365000 SPEARFISH LAND COVER
-	<B>font</B> romand
-	<B>color</B> red
-	<B>width</B> 2
-	<B>hcolor</B> black
-	<B>hwidth</B> 1
-	<B>background</B> white
-	<B>border</B> red
-	<B>size</B> 500
-	<B>ref</B> lower left 
-	<B>opaque</B> y
-	<B>end</B>
+	<b>text</b> 650000 7365000 SPEARFISH LAND COVER
+	<b>font</b> romand
+	<b>color</b> red
+	<b>width</b> 2
+	<b>hcolor</b> black
+	<b>hwidth</b> 1
+	<b>background</b> white
+	<b>border</b> red
+	<b>size</b> 500
+	<b>ref</b> lower left 
+	<b>opaque</b> y
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="vareas"></a>
-<H2>vareas</H2>
+<h2>vareas</h2>
 
 Selects a vector map layer for output and plots areas.
 <PRE>
-USAGE:	<B>vareas</B> vectormap
-	<B>layer</B> # (layer number used with cats/where option)
-	<B>cats</B> list of categories (e.g. 1,3,5-7)
-	<B>where</B> SQL where statement
-	<B>masked</B> [y|n]
-	<B>color</B> color
-	<B>fcolor</B> color
-	<B>rgbcolumn</B> column
-	<B>width</B> #
-	<B>label</B> label to use in legend
-	<B>lpos</B> position in legend
-	<B>pat</B> pattern file
-	<B>pwidth</B> #
-	<B>scale</B> #
-	<B>end</B>
+USAGE:	<b>vareas</b> vectormap
+	<b>layer</b> # (layer number used with cats/where option)
+	<b>cats</b> list of categories (e.g. 1,3,5-7)
+	<b>where</b> SQL where statement
+	<b>masked</b> [y|n]
+	<b>color</b> color
+	<b>fcolor</b> color
+	<b>rgbcolumn</b> column
+	<b>width</b> #
+	<b>label</b> label to use in legend
+	<b>lpos</b> position in legend
+	<b>pat</b> pattern file
+	<b>pwidth</b> #
+	<b>scale</b> #
+	<b>end</b>
 </PRE>
 The user can specify:
-<P>
-<B>color</B> - color of the vector lines or area boundaries;
-<P>
-<B>fcolor</B> - the area fill color;
-<P>
-<B>rgbcolumn</B> - name of color definition column used for the area fill color;
-<P>
-<B>width</B> - width of the vectors lines or area boundaries in pixels
+<p>
+<b>color</b> - color of the vector lines or area boundaries;
+<p>
+<b>fcolor</b> - the area fill color;
+<p>
+<b>rgbcolumn</b> - name of color definition column used for the area fill color;
+<p>
+<b>width</b> - width of the vectors lines or area boundaries in pixels
 (accepts decimal points [floating points] as well as integers);
-<P>
-<B>masked</B> - whether or not the raster map layer is to be masked
+<p>
+<b>masked</b> - whether or not the raster map layer is to be masked
 by the current mask;
-(see manual entry <EM><A HREF="r.mask.html">r.mask</A></EM>
+(see manual entry <em><a href="r.mask.html">r.mask</a></em>
 for more information on the mask)
-<P>
-<B>cats</B> - which categories should be plotted (default is all);
-<P>
-<B>where</B> - select features using a SQL where statement.
+<p>
+<b>cats</b> - which categories should be plotted (default is all);
+<p>
+<b>where</b> - select features using a SQL where statement.
 For example: <tt>vlastnik = 'Cimrman'</tt>;
-<P>
-<B>label</B> - for description in <a href="#vlegend">vlegend</a>.
+<p>
+<b>label</b> - for description in <a href="#vlegend">vlegend</a>.
 Default is: map(mapset);
-<P>
-<B>lpos</B> - position vector is plotted in legend. If lpos is
+<p>
+<b>lpos</b> - position vector is plotted in legend. If lpos is
 0 then this vector is omitted in legend. If more vectors used the 
 same lpos then their symbols in legend are merged and label for
 first vector is used.
-<P>
-<B>pat</B> - full path to pattern file. The pattern file contains header and
+<p>
+<b>pat</b> - full path to pattern file. The pattern file contains header and
 simple PostScript commands. It is similar to EPS but more limited, meaning that
 while each pattern file is a true EPS file, most EPS files are not useful as pattern
 files because they contain restricted commands. Color <!-- and width --> of patterns
-are set by <B>fcolor</B> (red, green, ..., none, R:G:B)<!-- no?  and <B>width</B>
+are set by <b>fcolor</b> (red, green, ..., none, R:G:B)<!-- no?  and <b>width</b>
 until overwritten in the pattern file -->. Color of the boundaries remain set
-by the <B>color</B> instruction.
+by the <b>color</b> instruction.
 Pattern may be scaled with the <b>scale</b> command. Several standard hatching
 patterns are provided in <tt>$GISBASE/etc/paint/patterns/</tt>.
 Demonstrative images can be found on the
@@ -1368,87 +1368,87 @@
 </PRE></div>
 
 
-<P>
-<B>scale</B> - pattern scale
-<P>
-<B>pwidth</B> - pattern line width, width is used by pattern until the width is overwritten
+<p>
+<b>scale</b> - pattern scale
+<p>
+<b>pwidth</b> - pattern line width, width is used by pattern until the width is overwritten
 in pattern file.
-<P>
+<p>
 
 <PRE>
 EXAMPLE:	
-	<B>vareas</B> forest
-	<B>color</B> blue
-	<B>width</B> 1
-	<B>masked</B> y
-	<B>cats</B> 2,5-7	
-	<B>end</B>
+	<b>vareas</b> forest
+	<b>color</b> blue
+	<b>width</b> 1
+	<b>masked</b> y
+	<b>cats</b> 2,5-7	
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="vlines"></a>
-<H2>vlines</H2>
+<h2>vlines</h2>
 
 Selects a vector map layer for output and plots lines.
 <PRE>
-USAGE:	<B>vlines</B> vectormap
-	<B>type</B> line and/or boundary
-	<B>layer</B> # (layer number used with cats/where option)
-	<B>cats</B> list of categories (e.g. 1,3,5-7)
-	<B>where</B> SQL where statement like: vlastnik = 'Cimrman'
-	<B>masked</B> [y|n]
-	<B>color</B> color
-	<B>rgbcolumn</B> column
-	<B>width</B> #
-	<B>cwidth</B> #
-	<B>hcolor</B> color
-	<B>hwidth</B> #
-	<B>offset</B> #
-	<B>coffset</B> #
-	<B>ref</B> left|right
-	<B>style</B> 00001111
-	<B>linecap</B> style
-	<B>label</B> label
-	<B>lpos</B> #
-	<B>end</B>
+USAGE:	<b>vlines</b> vectormap
+	<b>type</b> line and/or boundary
+	<b>layer</b> # (layer number used with cats/where option)
+	<b>cats</b> list of categories (e.g. 1,3,5-7)
+	<b>where</b> SQL where statement like: vlastnik = 'Cimrman'
+	<b>masked</b> [y|n]
+	<b>color</b> color
+	<b>rgbcolumn</b> column
+	<b>width</b> #
+	<b>cwidth</b> #
+	<b>hcolor</b> color
+	<b>hwidth</b> #
+	<b>offset</b> #
+	<b>coffset</b> #
+	<b>ref</b> left|right
+	<b>style</b> 00001111
+	<b>linecap</b> style
+	<b>label</b> label
+	<b>lpos</b> #
+	<b>end</b>
 </PRE>
 The user can specify:
-<P>
-<B>type</B> - the default is lines only;
-<P>
-<B>color</B> - color of the vector lines or area boundaries;
-<P>
-<B>rgbcolumn</B> - name of color definition column used for the vector lines
+<p>
+<b>type</b> - the default is lines only;
+<p>
+<b>color</b> - color of the vector lines or area boundaries;
+<p>
+<b>rgbcolumn</b> - name of color definition column used for the vector lines
 or area boundaries;
-<P>
-<B>width</B> - width of the vectors lines or area boundaries in pixels
+<p>
+<b>width</b> - width of the vectors lines or area boundaries in pixels
 (accepts decimal points [floating points] as well as integers);
-<P>
-<B>cwidth</B> - width of the vectors lines. If cwidth is used then 
+<p>
+<b>cwidth</b> - width of the vectors lines. If cwidth is used then 
 width of line is equal to cwidth * category value and width is 
 used in legend;
-<P>
-<B>hcolor</B> - the highlight color for the vector lines;
-<P>
-<B>hwidth</B> - the width of the highlight color in pixels;
-<P>
-<B>offset</B> (experimental) - offset for the vectors lines in pixels for
+<p>
+<b>hcolor</b> - the highlight color for the vector lines;
+<p>
+<b>hwidth</b> - the width of the highlight color in pixels;
+<p>
+<b>offset</b> (experimental) - offset for the vectors lines in pixels for
 plotting parallel lines in distance equal to offset (accepts positive or 
 negative decimal points). Useful to print streets with several parallel lanes;
-<P>
-<B>coffset</B> (experimental) - offset for the vectors lines. If coffset
+<p>
+<b>coffset</b> (experimental) - offset for the vectors lines. If coffset
 is used then  offset of line is equal to coffset * category value and offset
 is used in legend;
-<P>
-<B>ref</B> (experimental) - line justification. 
-<P>
-<B>masked</B> - whether or not the raster map layer is to be masked
+<p>
+<b>ref</b> (experimental) - line justification. 
+<p>
+<b>masked</b> - whether or not the raster map layer is to be masked
 by the current mask;
-(see manual entry <EM><A HREF="r.mask.html">r.mask</A></EM>
+(see manual entry <em><a href="r.mask.html">r.mask</a></em>
 for more information on the mask);
-<P>
-<B>style</B> - the line style allows the vectors to be dashed in different
+<p>
+<b>style</b> - the line style allows the vectors to be dashed in different
 patterns.  This is done by either typing "solid", "dashed", "dotted", or
 "dashdotted", or as a series of 0's and 1's in a desired sequence or pattern.
 The first block of repeated zeros or ones represents "draw", the second
@@ -1456,181 +1456,180 @@
 An even number of blocks will repeat the pattern, an odd number of blocks
 will alternate the pattern.
 The default is "solid";
-<P>
-<B>linecap</B> - the linecap specifies the look of the ends of the line,
+<p>
+<b>linecap</b> - the linecap specifies the look of the ends of the line,
 or the end of the dashes in a dashed line. The parameters are:
 'butt' for butt caps (default), 'round' for round caps and 'extended_butt'
 for extended butt caps. The shape of the round and the extended butt caps
 is related to the line thickness: for round butts the radius is half the
 linewidth, while for extended butt the line will extend for half the linewidth.  
-<P>
-<B>cats</B> - which categories should be plotted (default is all);
-<P>
-<B>label</B> - for description in <a href="#vlegend">vlegend</a>.
+<p>
+<b>cats</b> - which categories should be plotted (default is all);
+<p>
+<b>label</b> - for description in <a href="#vlegend">vlegend</a>.
 Default is: map(mapset);
-<P>
-<B>lpos</B> - position vector is plotted in legend. If lpos is
+<p>
+<b>lpos</b> - position vector is plotted in legend. If lpos is
 0 then this vector is omitted in legend. If more vectors used the 
 same lpos then their symbols in legend are merged and label for
 first vector is used.
-<P>
+<p>
 
 <PRE>
 EXAMPLE:	
-	<B>vlines</B> streams
-	<B>color</B> blue
-	<B>width</B> 2
-	<B>hcolor</B> white
-	<B>hwidth</B> 1
-	<B>masked</B> y
-	<B>cats</B> 2	
-	<B>label</B> Streams - category 2
-	<B>end</B>
+	<b>vlines</b> streams
+	<b>color</b> blue
+	<b>width</b> 2
+	<b>hcolor</b> white
+	<b>hwidth</b> 1
+	<b>masked</b> y
+	<b>cats</b> 2	
+	<b>label</b> Streams - category 2
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="vpoints"></a>
-<H2>vpoints</H2>
+<h2>vpoints</h2>
 
 Selects vector point data to be placed on the output map
 <PRE>
-USAGE:	<B>vpoints</B> vectormap
-	<B>type</B> point and/or centroid
-	<B>layer</B> # (layer number used with cats/where/sizecol options)
-	<B>cats</B> list of categories (e.g. 1,3,5-7)
-	<B>where</B> SQL where statement like: vlastnik = 'Cimrman'
-	<B>masked</B> [y|n]
-	<B>color</B> color
-	<B>fcolor</B> color
-	<B>rgbcolumn</B> column
-	<B>width</B> #
-	<B>eps</B> epsfile	
-	<B>symbol</B> symbol group/name	
-	<B>size</B> #
-	<B>sizecolumn</B> attribute column used for symbol sizing
-	<B>scale</B> scaling factor for sizecolumn values
-	<B>rotate</B> #
-	<B>rotatecolumn</B> column
-	<B>label</B> legend label
-	<B>lpos</B> position in legend
-	<B>end</B>
+USAGE:	<b>vpoints</b> vectormap
+	<b>type</b> point and/or centroid
+	<b>layer</b> # (layer number used with cats/where/sizecol options)
+	<b>cats</b> list of categories (e.g. 1,3,5-7)
+	<b>where</b> SQL where statement like: vlastnik = 'Cimrman'
+	<b>masked</b> [y|n]
+	<b>color</b> color
+	<b>fcolor</b> color
+	<b>rgbcolumn</b> column
+	<b>width</b> #
+	<b>eps</b> epsfile	
+	<b>symbol</b> symbol group/name	
+	<b>size</b> #
+	<b>sizecolumn</b> attribute column used for symbol sizing
+	<b>scale</b> scaling factor for sizecolumn values
+	<b>rotate</b> #
+	<b>rotatecolumn</b> column
+	<b>label</b> legend label
+	<b>lpos</b> position in legend
+	<b>end</b>
 </PRE>
 The user may specify the
-the <B>color</B> of the sites (see section on <a href="#NAMED_COLORS">NAMED COLORS</a>);
-either the GRASS <B>symbol</B> or
-the <B>eps</B> Encapsulated Postscript file to be used to represent the presence of a site
-(if '<B>$</B>' is used in the EPS file path it will be replaced by category number); 
-and <B>rotate</B> (in degrees) for counter-clockwise rotation.
+the <b>color</b> of the sites (see section on <a href="#NAMED_COLORS">NAMED COLORS</a>);
+either the GRASS <b>symbol</b> or
+the <b>eps</b> Encapsulated Postscript file to be used to represent the presence of a site
+(if '<b>$</b>' is used in the EPS file path it will be replaced by category number); 
+and <b>rotate</b> (in degrees) for counter-clockwise rotation.
 <BR>
 The size of the icon (number of times larger than the size it is in
-the icon file) is typically given by the <B>size</B> option. Alternatively
+the icon file) is typically given by the <b>size</b> option. Alternatively
 the size of the symbol or EPS graphic can be taken from an attribute column 
-by using the <B>sizecolumn</B> command. The value given by <B>sizecolumn</B> may be
-scaled by using the <B>scale</B> factor setting (default scaling is 1.0).
-In a similar manner symbol color can be read from <B>rgbcolumn</B>
-and the rotation angle read from <B>rotatecolumn</B>.
+by using the <b>sizecolumn</b> command. The value given by <b>sizecolumn</b> may be
+scaled by using the <b>scale</b> factor setting (default scaling is 1.0).
+In a similar manner symbol color can be read from <b>rgbcolumn</b>
+and the rotation angle read from <b>rotatecolumn</b>.
 
 <PRE>
 EXAMPLE:
-	<B>vpoints</B> windmills
-	<B>color</B> blue
-	<B>symbol</B> mills/windmill
-	<B>size</B> 10
-	<B>end</B>
+	<b>vpoints</b> windmills
+	<b>color</b> blue
+	<b>symbol</b> mills/windmill
+	<b>size</b> 10
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 <a name="vlegend"></a>
-<H2>vlegend</H2>
+<h2>vlegend</h2>
 
 Prints the portion of the map legend containing the 
 vector information, on or below the map.
 
 <PRE>
-USAGE:	<B>vlegend</B>
-	<B>where</B> x y
-	<B>font</B> font name
-	<B>fontsize</B> font size
-	<B>width</B> width of color symbol
-	<B>cols</B> number of columns to print
-	<B>span</B> column separation
-	<B>border</B> color|none
-	<B>end</B>
+USAGE:	<b>vlegend</b>
+	<b>where</b> x y
+	<b>font</b> font name
+	<b>fontsize</b> font size
+	<b>width</b> width of color symbol
+	<b>cols</b> number of columns to print
+	<b>span</b> column separation
+	<b>border</b> color|none
+	<b>end</b>
 </PRE>
 The default location is immediately below the legend containing the
 scale, grid and region information, starting at the left edge of the map.
-If the <EM>where</EM> instruction is present and <EM>y</EM> is less than or
+If the <em>where</em> instruction is present and <em>y</em> is less than or
 equal to zero, the vector legend will be positioned immediately below
-the map, starting <EM>x</EM> inches from the left edge of the page.
-<P>
-<EM>width</EM> is the width in inches of the color symbol (for lines)
+the map, starting <em>x</em> inches from the left edge of the page.
+<p>
+<em>width</em> is the width in inches of the color symbol (for lines)
 in front of the legend text. The default is 1/24 * fontsize inches.
-<P>
-<EM>cols</EM> is the number of columns to split the legend into. The
+<p>
+<em>cols</em> is the number of columns to split the legend into. The
 default is one column. The maximum number of colums is 10, or equal
 to the number of legend entries if there are less than 10 entries.
-<P>
-<EM>span</EM> is the column separation distance between the left edges of
+<p>
+<em>span</em> is the column separation distance between the left edges of
 two columns in a multicolumn legend. It is given in inches.
 The default is automatic scaling based on the left margin and the right
 hand side of the map box.
-<P>
-<EM>border</EM> will draw a border around the legend using the specified color.
+<p>
+<em>border</em> will draw a border around the legend using the specified color.
  (see <a href="#NAMED_COLORS">NAMED COLORS</a>)
-<P>
+<p>
 Alternatively, the user can create a custom legend by using the 
 <a href="#rectangle">rectangle</a>, <a href="#point">point</a>, and 
 <a href="#text">text</a> instructions.
-<P>
+<p>
 See also the <a href="#colortable">colortable</a> command for creating
 raster map legends.
-<P>
+<p>
 This example prints the vector legend
 immediately below the map and starting 4.5 inches from the left edge
 of the page, using a 12/72 inch Helvetica font.
 
 <PRE>
 EXAMPLE:	
-	<B>vlegend</B>
-	<B>where</B> 4.5 0
-	<B>font</B> Courier
-	<B>fontsize</B> 12
-	<B>end</B>
+	<b>vlegend</b>
+	<b>where</b> 4.5 0
+	<b>font</b> Courier
+	<b>fontsize</b> 12
+	<b>end</b>
 </PRE>
-<P>
+<p>
 
 
 <a name="end"></a>
-<H2>end</H2>
+<h2>end</h2>
 
 Terminates input and begin painting the map.
 
 <PRE>
-USAGE:	<B>end</B>
+USAGE:	<b>end</b>
 </PRE>
 <BR>
-<P>
+<p>
 
 
+<h2>EXAMPLES</h2>
 
-<H2>EXAMPLES</H2>
 
+The following are examples of <em>ps.map</em> script files.
+<p>
+<h4>Simple example</h4>
+The file has been named <em>spear.basic</em>:
 
-The following are examples of <EM>ps.map</EM> script files.
-<P>
-<h3>Simple example</h3>
-The file has been named <EM>spear.basic</EM>:
-
 <PRE>
 # this ps.map example draws a map of Spearfish, SD
-<B>raster</B> elevation.dem
-<B>header</B>
-  <B>end</B>
-<B>vlines</B> roads
-  <B>color</B> brown
-  <B>end</B>
-<B>end</B>
+<b>raster</b> elevation.dem
+<b>header</b>
+  <b>end</b>
+<b>vlines</b> roads
+  <b>color</b> brown
+  <b>end</b>
+<b>end</b>
 </PRE>
 
 Generate map as Postsript file:
@@ -1639,74 +1638,74 @@
 </PRE>
 
 
-<h3>More complicated example</h3>
-The file has been named <EM>spear.soils</EM>:
+<h4>More complicated example</h4>
+The file has been named <em>spear.soils</em>:
 
 <PRE>
 # this ps.map example draws a map of Spearfish, SD
-<B>raster</B> soils
-<B>outline</B>
-   <B>color</B> black
-   <B>width</B> 1
-   <B>end</B>
-<B>comments</B> soil.cmt
-   <B>where</B> 1 6
-   <B>font</B> Helvetica
-   <B>end</B>
-<B>colortable</B> y
-   <B>where</B> 1 6.5
-   <B>cols</B> 4
-   <B>width</B> 4
-   <B>font</B> Helvetica
-   <B>end</B>
-<B>setcolor</B> 6,8,9 white
-<B>setcolor</B> 10 green
-<B>vlines</B> roads
-   <B>width</B> 2
-   <B>style</B> 0111
-   <B>color</B> grey
-   <B>masked</B> n
-   <B>end</B>
-<B>vlegend</B>
-   <B>where</B> 4.5 0
-   <B>font</B> Courier
-   <B>fontsize</B> 8
-   <B>end</B>
-<B>text</B> 30% 100% SPEARFISH SOILS MAP
-   <B>color</B> red
-   <B>width</B> 1
-   <B>hcolor</B> black
-   <B>hwidth</B> 1
-   <B>background</B> white
-   <B>border</B> red
-   <B>size</B> 500
-   <B>ref</B> lower left
-   <B>end</B>
-<B>line</B> 606969.73 3423092.91 616969.73 3423092.91
-   <B>color</B> yellow
-   <B>width</B> 2
-   <B>end</B>
-<B>point</B> 40% 60%
-   <B>color</B> purple
-   <B>symbol</B> basic/diamond
-   <B>size</B> 25
-   <B>masked</B> n
-   <B>end</B>
-<B>scale</B> 1:125000
-<B>scalebar</B> f
-   <B>where</B> 4.5 6.5
-   <B>length</B> 5000
-   <B>height</B> 0.05
-   <B>segment</B> 5
-   <B>numbers</B> 5
-   <B>end</B>
-<B>geogrid</B> 60 s
-   <B>color</B> blue
-   <B>numbers</B> 2 yellow
-   <B>end</B>
-<B>paper</B> a4
-    <B>end</B>
-<B>end</B>
+<b>raster</b> soils
+<b>outline</b>
+   <b>color</b> black
+   <b>width</b> 1
+   <b>end</b>
+<b>comments</b> soil.cmt
+   <b>where</b> 1 6
+   <b>font</b> Helvetica
+   <b>end</b>
+<b>colortable</b> y
+   <b>where</b> 1 6.5
+   <b>cols</b> 4
+   <b>width</b> 4
+   <b>font</b> Helvetica
+   <b>end</b>
+<b>setcolor</b> 6,8,9 white
+<b>setcolor</b> 10 green
+<b>vlines</b> roads
+   <b>width</b> 2
+   <b>style</b> 0111
+   <b>color</b> grey
+   <b>masked</b> n
+   <b>end</b>
+<b>vlegend</b>
+   <b>where</b> 4.5 0
+   <b>font</b> Courier
+   <b>fontsize</b> 8
+   <b>end</b>
+<b>text</b> 30% 100% SPEARFISH SOILS MAP
+   <b>color</b> red
+   <b>width</b> 1
+   <b>hcolor</b> black
+   <b>hwidth</b> 1
+   <b>background</b> white
+   <b>border</b> red
+   <b>size</b> 500
+   <b>ref</b> lower left
+   <b>end</b>
+<b>line</b> 606969.73 3423092.91 616969.73 3423092.91
+   <b>color</b> yellow
+   <b>width</b> 2
+   <b>end</b>
+<b>point</b> 40% 60%
+   <b>color</b> purple
+   <b>symbol</b> basic/diamond
+   <b>size</b> 25
+   <b>masked</b> n
+   <b>end</b>
+<b>scale</b> 1:125000
+<b>scalebar</b> f
+   <b>where</b> 4.5 6.5
+   <b>length</b> 5000
+   <b>height</b> 0.05
+   <b>segment</b> 5
+   <b>numbers</b> 5
+   <b>end</b>
+<b>geogrid</b> 60 s
+   <b>color</b> blue
+   <b>numbers</b> 2 yellow
+   <b>end</b>
+<b>paper</b> a4
+    <b>end</b>
+<b>end</b>
 </PRE>
 
 This script file can be entered at the command line:
@@ -1722,31 +1721,31 @@
  ps.map input=spear.soils output=soils.ps
 </pre></div>
 
-<P>
+<p>
 More examples can be found on the
 <a href="http://grass.osgeo.org/wiki/Ps.map_scripts">GRASS Wiki</a>
 help site.
-<P>
+<p>
 
 
-<H2>CHANGES BETWEEN VERSION 5.0.x/5.4.x and 6.0</H2>
+<h2>CHANGES BETWEEN VERSION 5.0.x/5.4.x and 6.0</h2>
 <UL>
 <LI>Devices and ps.select do not exist any more. Paper is defined by the
-<EM>paper</EM> instruction.</LI> 
-<LI><EM>vpoints</EM> are used instead of <EM>sites</EM> (points are read from vector).</LI>
-<LI><EM>vector</EM> is substituted by <EM>vpoints</EM>, <EM>vlines</EM> and <EM>vareas</EM>.</LI>
+<em>paper</em> instruction.</LI> 
+<LI><em>vpoints</em> are used instead of <em>sites</em> (points are read from vector).</LI>
+<LI><em>vector</em> is substituted by <em>vpoints</em>, <em>vlines</em> and <em>vareas</em>.</LI>
 <LI>Symbols are used instead of icons (different format and directory).</LI>
 <LI>Map legend can be printed in columns.</LI>
 </UL>
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 <em>
 <a href="g.region.html">g.region</a>,
 <a href="v.label.html">v.label</a>
 </em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Paul Carlson, USDA, SCS, NHQ-CGIS<BR>
 Modifications: Radim Blazek, Glynn Clements, Bob Covill, Hamish Bowman

Modified: grass/branches/develbranch_6/raster/r.horizon/description.html
===================================================================
--- grass/branches/develbranch_6/raster/r.horizon/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/raster/r.horizon/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<B>r.horizon</B> computes the angular height of terrain horizon in
+<b>r.horizon</b> computes the angular height of terrain horizon in
 radians. It reads a raster of elevation data and outputs the horizon
 outline in one of two modes:
 
@@ -13,7 +13,7 @@
 height in a specific direction. One raster is created for each direction.
 </ul>
 
-<P>
+<p>
 The directions are given as azimuthal angles (in degrees), with
 the angle starting with 0 towards East and moving counterclockwise
 (North is 90, etc.). The calculation takes into account the actual
@@ -29,23 +29,23 @@
 
 <H3>Flags:</H3>
 <dl>
-  <dt><B>-d</B>
+  <dt><b>-d</b>
   <dd>Output horizon height in degrees (the default is radians)</dl>
 </dl>
 
 
 <H3>Input parameters:</H3>
-<P>The <I>elevin</I> parameter is an input elevation raster map. If
+<p>The <I>elevin</I> parameter is an input elevation raster map. If
 the buffer options are used (see below), this raster should extend
 over the area that accommodate the presently defined region plus
 defined buffer zones. 
 </P>
-<P>The <I>horizonstep</I> parameter gives the angle step (in degrees)
+<p>The <I>horizonstep</I> parameter gives the angle step (in degrees)
 between successive azimuthal directions for the calculation of the
 horizon. Thus, a value of 5 for the <I>horizonstep</I> will give a total of
 360/5=72 directions (72 rasters if used in the raster mode). 
 </P>
-<P>The <I>direction</I> parameter gives the initial direction of the
+<p>The <I>direction</I> parameter gives the initial direction of the
 first output. This parameter acts as an direction angle offset. For
 example, if you want to get horizon angles for directions 45 and 225
 degrees, the <I>direction</I> should be set to 45 and <I>horizonstep</I> to
@@ -53,25 +53,25 @@
 specify desired direction of horizon angle, and set the <I>horizonstep</I>
 size to 0 degrees. 
 </P>
-<P>The <I>dist </I>controls the sampling distance step size for the
+<p>The <I>dist </I>controls the sampling distance step size for the
 search for horizon along the line of sight. The default value is 1.0
 meaning that the step size will be taken from the raster resolution.
 Setting the value below 1.0 might slightly improve results for
 directions apart from the cardinal ones, but increasing the
 processing load of the search algorithm. 
 </P>
-<P>The <I>maxdistance</I> value gives a maximum distance to move away
+<p>The <I>maxdistance</I> value gives a maximum distance to move away
 from the origin along the line of sight in order to search for the
 horizon height. The smaller this value the faster the calculation but
 the higher the risk that you may miss a terrain feature that can
 contribute significantly to the horizon outline.</P>
-<P>The <I>coord</I> parameter takes a pair of easting-northing values
+<p>The <I>coord</I> parameter takes a pair of easting-northing values
 in the current coordinate system and calculates the values of angular
 height of the horizon around this point. To achieve the
 consistency of the results, the point coordinate is
 aligned to the midpoint of the closest elevation raster cell. 
 </P>
-<P>If an analyzed point (or raster cell) lies close to the edge of
+<p>If an analyzed point (or raster cell) lies close to the edge of
 the defined region, the horizon calculation may not be realistic,
 since it may not see some significant terrain features which could
 have contributed to the horizon, because these features are outside
@@ -84,10 +84,10 @@
 buffer parameters influence only size of the read elevation map,
 while the analysis in the raster mode will be done only for the
 area specified by the current region definition.</P>
-<P>The <I>horizon </I>parameter gives the prefix of the output
+<p>The <I>horizon </I>parameter gives the prefix of the output
 horizon raster maps. The raster name of each horizon direction
 raster will be constructed as <I>horizon_</I>NNN , where NNN counts
-upwards from 0 to total number of directions. If you use <B>r.horizon</B>
+upwards from 0 to total number of directions. If you use <b>r.horizon</b>
 in the single point mode this option will be ignored. 
 </P>
 
@@ -100,8 +100,8 @@
 </p>
 
 
-<H2>METHOD</H2>
-<P>The calculation method is based on the method used in <B>r.sun</B>
+<h2>METHOD</h2>
+<p>The calculation method is based on the method used in <b>r.sun</b>
 to calculate shadows. It starts at a very shallow angle and walks
 along the line of sight and asks at each step whether the line of
 sight &quot;hits&quot; the terrain. If so, the angle is increased to
@@ -118,7 +118,7 @@
 </P>
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Single point mode:
 <div class="code"><pre>
@@ -135,36 +135,36 @@
 </pre></div>
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 <em>
-<A HREF="r.sun.html">r.sun</A>,
-<A HREF="r.sunmask.html">r.sunmask</A>,
-<A HREF="r.los.html">r.los</A></em>
+<a href="r.sun.html">r.sun</a>,
+<a href="r.sunmask.html">r.sunmask</a>,
+<a href="r.los.html">r.los</a></em>
 
 
-<H2>REFERENCES</H2>
-<P>Hofierka J., 1997. Direct solar radiation modelling within an
+<h2>REFERENCES</h2>
+<p>Hofierka J., 1997. Direct solar radiation modelling within an
 open GIS environment. Proceedings of JEC-GI'97 conference in Vienna,
 Austria, IOS Press Amsterdam, 575-584 
 </P>
-<P>Hofierka J., Huld T., Cebecauer T., Suri M., 2007. Open Source Solar 
+<p>Hofierka J., Huld T., Cebecauer T., Suri M., 2007. Open Source Solar 
 Radiation Tools for Environmental and Renewable Energy Applications,
 <a href="http://www.isess.org/papers.asp?year=2007">International Symposium on 
 Environmental Software Systems</a>, Prague, 2007</P>
-<P>Neteler M., Mitasova H., 2004. Open Source GIS: A GRASS GIS
-Approach, <A HREF="http://www.springer.com/geography/gis+cartography/book/978-0-387-35767-6">Springer</A>, New York.
+<p>Neteler M., Mitasova H., 2004. Open Source GIS: A GRASS GIS
+Approach, <a href="http://www.springer.com/geography/gis+cartography/book/978-0-387-35767-6">Springer</a>, New York.
 ISBN: 1-4020-8064-6, 2nd Edition 2004 (reprinted 2005), 424 pages 
 </P>
-<P>Project <A HREF="http://re.jrc.ec.europa.eu/pvgis/">PVGIS</A>, European 
+<p>Project <a href="http://re.jrc.ec.europa.eu/pvgis/">PVGIS</a>, European 
 Commission, DG Joint Research Centre 2001-2007</P>
-<P>Suri M., Hofierka J., 2004.
+<p>Suri M., Hofierka J., 2004.
 A New GIS-based Solar Radiation Model and Its Application for
-Photovoltaic Assessments. <A HREF="http://www.blackwellpublishing.com/toc.asp?ref=1361-1682">Transactions
-in GIS</A>, 8(2), 175-190</P>
+Photovoltaic Assessments. <a href="http://www.blackwellpublishing.com/toc.asp?ref=1361-1682">Transactions
+in GIS</a>, 8(2), 175-190</P>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 Thomas Huld, Joint Research Centre of
 the European Commission, Ispra, Italy 
 <br>
@@ -177,11 +177,11 @@
 &copy; 2007, Thomas Huld, Tomas Cebecauer, Jaroslav Hofierka, Marcel Suri 
 </P>
 
-<ADDRESS STYLE="margin-bottom: 0.2in"><A HREF="mailto:Thomas.Huld at jrc.it">Thomas.Huld at jrc.it</A>
-<A HREF="mailto:Tomas.Cebecauer at jrc.it">Tomas.Cebecauer at jrc.it</A>
-<A HREF="mailto:hofi at geomodel.sk">hofierka at geomodel.sk</A>
-<A HREF="mailto:Marcel.Suri at jrc.it">Marcel.Suri at jrc.it</A> 
+<ADDRESS STYLE="margin-bottom: 0.2in"><a href="mailto:Thomas.Huld at jrc.it">Thomas.Huld at jrc.it</a>
+<a href="mailto:Tomas.Cebecauer at jrc.it">Tomas.Cebecauer at jrc.it</a>
+<a href="mailto:hofi at geomodel.sk">hofierka at geomodel.sk</a>
+<a href="mailto:Marcel.Suri at jrc.it">Marcel.Suri at jrc.it</a> 
 </ADDRESS>
 
-<P>
-<I>Last changed: $Date$</I> 
+<p>
+<i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/raster/r.mapcalc/r3.mapcalc.html
===================================================================
--- grass/branches/develbranch_6/raster/r.mapcalc/r3.mapcalc.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/raster/r.mapcalc/r3.mapcalc.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -9,44 +9,44 @@
 <img src="grass_logo.png" alt="GRASS logo"><hr align=center size=6 noshade>
 
 
-<h2>NAME</H2>
-<EM><B>r3.mapcalc</B></EM>
+<h2>NAME</h2>
+<em><b>r3.mapcalc</b></em>
 
 
-<h2>DESCRIPTION</H2>
-<EM>r3.mapcalc</EM> performs arithmetic on 3D grid volume data. New 3D grids
+<h2>DESCRIPTION</h2>
+<em>r3.mapcalc</em> performs arithmetic on 3D grid volume data. New 3D grids
 can be created which are arithmetic expressions involving existing 3D grids, 
 integer or floating point constants, and functions.
 
 
-<h2>PROGRAM USE</H2>
-If used without command line arguments, <EM>r3.mapcalc</EM> will read its
+<h2>PROGRAM USE</h2>
+If used without command line arguments, <em>r3.mapcalc</em> will read its
 input, one line at a time, from standard input (which is the keyboard,
 unless redirected from a file or across a pipe).
-Otherwise, the expression on the command line is evaluated. <EM>r3.mapcalc</EM>
+Otherwise, the expression on the command line is evaluated. <em>r3.mapcalc</em>
 expects its input to have the form:
-<P>
-<B>result=</B><EM>expression</EM>
-<P>
-where <EM>result</EM> is the name of a 3D grid to contain the result of
-the calculation and <EM>expression</EM> is any legal arithmetic expression
+<p>
+<b>result=</b><em>expression</em>
+<p>
+where <em>result</em> is the name of a 3D grid to contain the result of
+the calculation and <em>expression</em> is any legal arithmetic expression
 involving existing 3D grid, floating point constants, and functions known
 to the calculator. Parentheses are allowed in the expression and may be
-nested to any depth. <EM>result</EM> will be created in the user's current
+nested to any depth. <em>result</em> will be created in the user's current
 mapset.
-<P>
-The formula entered to <EM>r3.mapcalc</EM> by the user is recorded both
-in the <EM>result</EM> grid title (which appears in the category file for
-<EM>result</EM>)
-and in the history file for <EM>result</EM>.
-<P>
+<p>
+The formula entered to <em>r3.mapcalc</em> by the user is recorded both
+in the <em>result</em> grid title (which appears in the category file for
+<em>result</em>)
+and in the history file for <em>result</em>.
+<p>
 Some characters have special meaning to the command shell. If the user
-is entering input to <EM>r.mapcalc</EM> on the command line, expressions
+is entering input to <em>r.mapcalc</em> on the command line, expressions
 should be enclosed within single quotes.  See NOTES, below.
-<P>
+<p>
 
 
-<h2>OPERATORS AND ORDER OF PRECEDENCE</H2>
+<h2>OPERATORS AND ORDER OF PRECEDENCE</h2>
 The following operators are supported:
 <div class="code"><PRE>
      Operator   Meaning                    Type        Precedence
@@ -78,114 +78,114 @@
      ?:         conditional                Logical      1
 </PRE></div>
 (modulus is the remainder upon division)
-<P>
+<p>
 [1] The &amp;&amp;&amp; and ||| operators handle null values differently to other
 operators. See the section entitled <b>NULL support</b> below for more
 details.
-<P>
+<p>
 The operators are applied from left to right, with those of higher precedence
 applied before those with lower precedence.
 Division by 0 and modulus by 0 are acceptable and give a NULL result.
 The logical operators give a 1 result if the comparison is true, 0 otherwise.
-<P>
-<P>
+<p>
+<p>
 
 
-<h2>3D GRID NAMES</H2>
+<h2>3D GRID NAMES</h2>
 Anything in the expression which is not a number, operator, or function
 name is taken to be a 3D grid name. Examples:
-<P>
+<p>
 <div class="code"><PRE>
 volume
 x3
 3d.his
 </PRE></div>
-<P>
+<p>
 Most GRASS raster map layers and 3D grids meet this naming convention.
 However, if a 3D grid has a name which conflicts with the above rule, it
 should be quoted. For example, the expression
-<P>
+<p>
 <div class="code"><PRE>
 x = a-b
 </PRE></div>
-<P>
+<p>
 would be interpreted as:  x equals a minus b, whereas
-<P>
+<p>
 <div class="code"><PRE>
 x = "a-b"
 </PRE></div>
-<P>
-would be interpreted as: x equals the 3D grid named <EM>a-b</EM>
-<P>
+<p>
+would be interpreted as: x equals the 3D grid named <em>a-b</em>
+<p>
 Also
-<P>
+<p>
 <div class="code"><PRE>
 x = 3107
 </PRE></div>
-<P>
-would create <EM>x</EM> filled with the number 3107, while
-<P>
+<p>
+would create <em>x</em> filled with the number 3107, while
+<p>
 <div class="code"><PRE>
 x = "3107"
 </PRE></div>
-<P>
-would copy the 3D grid <EM>3107</EM> to the 3D grid <EM>x</EM>.
+<p>
+would copy the 3D grid <em>3107</em> to the 3D grid <em>x</em>.
 
-<P>
+<p>
 Quotes are not required unless the 3D grid names look like numbers or
 contain operators, OR unless the program is run non-interactively. Examples
 given here assume the program is run interactively. See NOTES, below.
-<P>
-<EM>r3.mapcalc</EM> will look for the 3D grids according to the user's
+<p>
+<em>r3.mapcalc</em> will look for the 3D grids according to the user's
 current mapset search path. It is possible to override the search path
 and specify the mapset from which to select the 3D grid. This is done by
 specifying the 3D grid name in the form:
-<P>
+<p>
 <div class="code"><PRE>
 name at mapset
 </PRE></div>
-<P>
+<p>
 For example, the following is a legal expression:
-<P>
+<p>
 <div class="code"><PRE>
 result = x at PERMANENT / y at SOILS
 </PRE></div>
-<P>
+<p>
 The mapset specified does not have to be in the mapset search path. (This
 method of overriding the mapset search path is common to all GRASS commands,
-not just <EM>r3.mapcalc</EM>.)
-<P>
+not just <em>r3.mapcalc</em>.)
+<p>
 
 
-<h2>THE NEIGHBORHOOD MODIFIER</H2>
+<h2>THE NEIGHBORHOOD MODIFIER</h2>
 3D grids are data base files stored in voxel format, i.e., three-dimensional
-matrices of float/double values. In <EM>r3.mapcalc</EM>, 3D grids may be
-followed by a <EM>neighborhood</EM> modifier that specifies a relative offset
+matrices of float/double values. In <em>r3.mapcalc</em>, 3D grids may be
+followed by a <em>neighborhood</em> modifier that specifies a relative offset
 from the current cell being evaluated. The format is
-<EM>map[r,c,d]</EM>,
-where <EM>r</EM> is the row offset, <EM>c</EM> is the column offset and <EM>d</EM>
-is the depth offset. For example, <EM>map[1,2,3]</EM> refers to the cell
+<em>map[r,c,d]</em>,
+where <em>r</em> is the row offset, <em>c</em> is the column offset and <em>d</em>
+is the depth offset. For example, <em>map[1,2,3]</em> refers to the cell
 one row below, two columns to the right and 3 levels below of the current
-cell, <EM>map[-3,-2,-1]</EM> refers to the cell three rows above, two columns
-to the left and one level below of the current cell, and <EM>map[0,1,0]</EM>
+cell, <em>map[-3,-2,-1]</em> refers to the cell three rows above, two columns
+to the left and one level below of the current cell, and <em>map[0,1,0]</em>
 refers to the cell one column to the right of the current cell. This syntax
 permits the development of neighborhood-type filters within a single 3D
 grid or across multiple 3D grids.
 
-<P>
+<p>
 
 
-<h2>FUNCTIONS</H2>
+<h2>FUNCTIONS</h2>
 The functions currently supported are listed in the table below.
 The type of the result is indicated in the last column.
-<EM>F</EM>
+<em>F</em>
 means that the functions always results in a floating point value,
-<EM>I</EM>
+<em>I</em>
 means that the function gives an integer result, and
-<EM>*</EM>
+<em>*</em>
 indicates that the result is float if any of the arguments to the function
 are floating point values and integer if all arguments are integer.
-<P>
+<p>
 <div class="code"><PRE>
 function		description					type
 ---------------------------------------------------------------------------
@@ -239,7 +239,7 @@
 Note, that the row(), col() and depth() indexing starts with 1. 
 
 
-<h2>FLOATING POINT VALUES IN THE EXPRESSION</H2>
+<h2>FLOATING POINT VALUES IN THE EXPRESSION</h2>
 Floating point numbers are allowed in the expression. A floating point
 number is a number which contains a decimal point:
 <div class="code"><PRE>
@@ -252,11 +252,11 @@
 (truncated) integer, while division of floats results in an accurate
 floating point value.  With functions of type * (see table above),
 the result is float if any argument is float, integer otherwise.
-<P>
+<p>
 Note: If you calculate with integer numbers, the resulting map will
 be integer. If you want to get a float result, add the decimal point
 to integer number(s).
-<P>
+<p>
 If you want floating point division, at least one of the arguments has
 to be a floating point value. Multiplying one of them by 1.0 will
 produce a floating-point result, as will using float():
@@ -265,7 +265,7 @@
 </PRE></div>
 
 
-<h2>NULL support</H2>
+<h2>NULL support</h2>
 <ul>
 <li>Division by zero should result in NULL. 
 <li>Modulus by zero should result in NULL. 
@@ -304,7 +304,7 @@
 pow(a,b) where a is negative and b is not an integer 
 </PRE></div>
 </ul>
-<P>
+<p>
 NULL support: Please note that any math performed with NULL cells always
 results in a NULL value for these cells. If you want to replace a NULL cell
 on-the-fly, use the isnull() test function in a if-statement.
@@ -376,9 +376,9 @@
 values, the user doesn't know whether or not they both have the same value.
 
 
-<h2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 To compute the average of two 3D grids
-<EM>a</EM> and <EM>b</EM>:
+<em>a</em> and <em>b</em>:
 <div class="code"><PRE>
 ave = (a + b)/2
 </pre></div>
@@ -387,7 +387,7 @@
 ave = (5*a + 3*b)/8.0
 </pre></div>
 To produce a binary representation of 3D grid
-<EM>a</EM> so that category 0 remains 0 and all other categories become 1:
+<em>a</em> so that category 0 remains 0 and all other categories become 1:
 <div class="code"><PRE>
 mask = a != 0
 </pre></div>
@@ -395,7 +395,7 @@
 <div class="code"><PRE>
 mask = if(a)
 </pre></div>
-To mask 3D grid <EM>b</EM> by 3D grid <EM>a</EM>:
+To mask 3D grid <em>b</em> by 3D grid <em>a</em>:
 <div class="code"><PRE>
 result = if(a,b)
 </pre></div>
@@ -430,86 +430,86 @@
 </pre></div>
 
 
-<h2>NOTES</H2>
+<h2>NOTES</h2>
 Extra care must be taken if the expression is given on the command line.
 Some characters have special meaning to the UNIX shell.
 These include, among others:
-<P>
+<p>
 * ( ) &gt; &amp; |
-<P>
+<p>
 It is advisable to put single quotes around the expression; e.g.:
 <div class="code"><PRE>
 result = 'elevation * 2'
 </pre></div>
 Without the quotes, the *, which has special meaning to the UNIX shell,
-would be altered and <EM>r3.mapcalc</EM> would see something other than the *.
-<P>
-If the input comes directly from the keyboard and the <EM>result</EM>
+would be altered and <em>r3.mapcalc</em> would see something other than the *.
+<p>
+If the input comes directly from the keyboard and the <em>result</em>
 3D grid exists, the user will be asked if it can be overwritten. Otherwise,
-the <EM>result</EM> 3D grid will automatically be overwritten if it exists.
-<P>
-Quoting <EM>result</EM> is not allowed. However, it is never necessary
-to quote <EM>result</EM> since it is always taken to be a 3D grid name.
-<P>
+the <em>result</em> 3D grid will automatically be overwritten if it exists.
+<p>
+Quoting <em>result</em> is not allowed. However, it is never necessary
+to quote <em>result</em> since it is always taken to be a 3D grid name.
+<p>
 For formulas that the user enters from standard input (rather than from
 the command line), a line continuation feature now exists. If the user
-adds \e to the end of an input line, <EM>r3.mapcalc</EM> assumes that the
+adds \e to the end of an input line, <em>r3.mapcalc</em> assumes that the
 formula being entered by the user continues on to the next input line.
 There is no limit to the possible number of input lines or to the length
 of a formula.
-<P>
-If the <EM>r3.mapcalc</EM> formula entered by the user is very long, the
+<p>
+If the <em>r3.mapcalc</em> formula entered by the user is very long, the
 map title will contain only some of it, but most (if not all) of the formula
-will be placed into the history file for the <EM>result</EM> map.
-<P>
-When the user enters input to <EM>r3.mapcalc</EM> non-interactively on
+will be placed into the history file for the <em>result</em> map.
+<p>
+When the user enters input to <em>r3.mapcalc</em> non-interactively on
 the command line, the program will not warn the user not to overwrite existing
 3D grids. Users should therefore take care to assign program outputs 3D
 grid file names that do not yet exist in their current mapsets.
-<P>
+<p>
 The environment variable GRASS_RND_SEED is read to initialise the
 random number generator.
 
 
-<h2>BUGS</H2>
+<h2>BUGS</h2>
 Continuation lines must end with a \ and have NO trailing white space
 (blanks or tabs).  If the user does leave white space at the end of
-continuation lines, the error messages produced by <EM>r.mapcalc</EM> will
+continuation lines, the error messages produced by <em>r.mapcalc</em> will
 be meaningless and the equation will not work as the user intended.
 This is important for the eval() function.
-<P>
-Error messages produced by <EM>r.mapcalc</EM> are almost useless.
-In future, <EM>r.mapcalc</EM> should make some attempt
+<p>
+Error messages produced by <em>r.mapcalc</em> are almost useless.
+In future, <em>r.mapcalc</em> should make some attempt
 to point the user to the offending section of the equation, e.g.:
 <div class="code"><PRE>
 x = a * b ++ c
 ERROR: somewhere in line 1: ...  b ++ c ...
 </pre></div>
-<P>
-Currently, there is no comment mechanism in <EM>r3.mapcalc</EM>. Perhaps
+<p>
+Currently, there is no comment mechanism in <em>r3.mapcalc</em>. Perhaps
 adding a capability that would cause the entire line to be ignored when
 the user inserted a # at the start of a line as if it were not present,
 would do the trick.
-<P>
+<p>
 The function should require the user to type "end" or "exit" instead
 of simply a blank line. This would make separation of multiple scripts
 separable by white space.
-<P>
+<p>
 r.mapcalc does not print a warning in case of operations on NULL cells.
 It is left to the user to utilize the isnull() function.
 
 
-<h2>SEE ALSO</H2>
-<B><A HREF="http://grass.osgeo.org/gdp/raster/mapcalc-algebra.pdf">r.mapcalc: An Algebra for GIS and Image
-Processing</A></B>, by Michael Shapiro and Jim Westervelt, U.S. Army
+<h2>SEE ALSO</h2>
+<b><a href="http://grass.osgeo.org/gdp/raster/mapcalc-algebra.pdf">r.mapcalc: An Algebra for GIS and Image
+Processing</a></b>, by Michael Shapiro and Jim Westervelt, U.S. Army
 Construction Engineering Research Laboratory (March/1991).
-<P> 
-<B><A HREF="http://grass.osgeo.org/gdp/raster/mapcalc.pdf">Performing Map Calculations on GRASS Data:
-r.mapcalc Program Tutorial</A></B>, by Marji Larson, Michael Shapiro and Scott
+<p> 
+<b><a href="http://grass.osgeo.org/gdp/raster/mapcalc.pdf">Performing Map Calculations on GRASS Data:
+r.mapcalc Program Tutorial</a></b>, by Marji Larson, Michael Shapiro and Scott
 Tweddale, U.S. Army Construction Engineering Research Laboratory (December
 1991)
 <p>
-<EM><a href="r.mapcalc.html">r.mapcalc</a></EM>
+<em><a href="r.mapcalc.html">r.mapcalc</a></em>
 
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/raster/r.region/description.html
===================================================================
--- grass/branches/develbranch_6/raster/r.region/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/raster/r.region/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -21,7 +21,7 @@
 settings are recomputed from the boundaries and the number of rows and
 columns in the raster map.
 
-<P>
+<p>
 The n=<em>value</em> may also be specified as a
 function of its current value:  n=n+<em>value</em>
 increases the current northing, while n=n-<em>value</em>

Modified: grass/branches/develbranch_6/raster/r.regression.line/description.html
===================================================================
--- grass/branches/develbranch_6/raster/r.regression.line/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/raster/r.regression.line/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>r.regression.line</EM> Calculates linear regression from two raster maps, 
+<em>r.regression.line</em> Calculates linear regression from two raster maps, 
 according to the formula y = a + b*x, where x and y represent raster maps. 
 Optionally saves regression coefficients to an ASCII file. 
 The result includes the following coefficients:
@@ -9,11 +9,11 @@
 (sdX, sdY), and the F test for testing the significance of the
 regression model as a whole (F).
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 The results for offset/intercept (a) and gain/slope (b) are 
 identical to that obtained from R-stats's lm() function. 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Comparison of the old and the new DEM in Spearfish:
 <div class="code"><pre>
@@ -38,7 +38,7 @@
 </pre></div>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Dr. Agustin Lobo - alobo at ija.csic.es<BR>
 Updated to GRASS 5.7 Michael Barton, Arizona State University<BR>

Modified: grass/branches/develbranch_6/raster/r.slope.aspect/description.html
===================================================================
--- grass/branches/develbranch_6/raster/r.slope.aspect/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/raster/r.slope.aspect/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -38,7 +38,7 @@
   <td>
   <center>
     <img src="dem.png" border="1">
-    <P>
+    <p>
     Example DEM
     <BR><BR>
   </center>
@@ -51,7 +51,7 @@
   <td>
   <center>
     <img src="slope.png" border="1">
-    <P>
+    <p>
     Slope (degree) from example DEM
     <BR><BR>
   </center>
@@ -59,7 +59,7 @@
   <td>
   <center>
     <img src="aspect.png" border="1">
-    <P>
+    <p>
     Aspect (degree) from example DEM
     <BR><BR>
   </center>
@@ -70,7 +70,7 @@
   <td>
   <center>
     <img src="tcurv.png" border="1">
-    <P>
+    <p>
     Tangential curvature (m<sup>-1</sup>) from example DEM
     <BR><BR>
   </center>
@@ -78,7 +78,7 @@
   <td>
   <center>
     <img src="pcurv.png" border="1">
-    <P>
+    <p>
     Profile curvature (m<sup>-1</sup>) from example DEM
     <BR><BR>
   </center>

Modified: grass/branches/develbranch_6/raster/r.sun2/description.html
===================================================================
--- grass/branches/develbranch_6/raster/r.sun2/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/raster/r.sun2/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -10,7 +10,7 @@
 the shadowing effect directly from the digital elevation model or using rasters
 of the horizon height which is much faster. The horizon rasters can be
 constructed using  <a href="r.horizon.html">r.horizon</a>.
-<P>
+<p>
 For latitude-longitude coordinates it requires that the elevation map is in meters.
 The rules are:
 <ul>
@@ -92,7 +92,7 @@
 factor for an absolutely clear atmosphere is <i>lin</i>=1.0. See notes below
 to learn more about this factor. The incidence solar angle is the angle between
 horizon and solar beam vector. 
-<P>
+<p>
 The solar radiation maps for a given day are computed by integrating the
 relevant irradiance between sunrise and sunset times for that day. The
 user can set a finer or coarser time step used for all-day radiation
@@ -105,7 +105,7 @@
 <i>step</i> to 4 minutes or less. <i>step</i><tt>=0.05</tt> is equivalent
 to every 3 minutes. Of course setting the time step to be very fine
 proportionally increases the module's running time.
-<P>
+<p>
 The output units are in Wh per squared meter per given
 day [Wh/(m*m)/day]. The incidence angle and irradiance/irradiation maps can
 be computed without shadowing influence of relief by default or they can
@@ -149,7 +149,7 @@
 </p>
 
 <h2> OPTIONS</h2>
-<P>Currently, there are two modes of r.sun.
+<p>Currently, there are two modes of r.sun.
 In the first mode it calculates solar incidence angle and solar irradiance
 raster maps using the set local time. In the second mode daily sums of solar
 irradiation [Wh.m-2.day-1] are computed for a specified day. </p>

Modified: grass/branches/develbranch_6/raster/r.surf.idw/description.html
===================================================================
--- grass/branches/develbranch_6/raster/r.surf.idw/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/raster/r.surf.idw/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -52,7 +52,7 @@
 <em><a href="r.surf.idw2.html">r.surf.idw2</a></em> except when the input data
 layer contains few non-zero data, i.e. when the cost of the search exceeds
 the cost of the additional distance calculations performed by 
-<em><A HREF="r.surf.idw2.html">r.surf.idw2</a></em>. The relative performance
+<em><a href="r.surf.idw2.html">r.surf.idw2</a></em>. The relative performance
 of these utilities will depend on the comparative speed of boolean, integer
 and floating point operations on a particular platform.
 

Modified: grass/branches/develbranch_6/raster/r.topmodel/description.html
===================================================================
--- grass/branches/develbranch_6/raster/r.topmodel/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/raster/r.topmodel/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -49,7 +49,7 @@
 K. Beven, R. Lamb, P. Quinn, R. Romanowicz, and J. Freer.
 TOPMODEL, in V.P. Singh (Ed.). Computer Models of Watershed Hydrology.
 Water Resources Publications, 1995.
-<P>
+<p>
 S.C. Liaw, Streamflow simulation using a physically based hydrologic
 model in humid forested watersheds (Dissertation).
 Colorado State University, CO. p163, 1988.

Modified: grass/branches/develbranch_6/raster3d/r3.mkdspf/description.html
===================================================================
--- grass/branches/develbranch_6/raster3d/r3.mkdspf/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/raster3d/r3.mkdspf/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 Creates a display file from an existing grid3 file according to
 specified threshold levels.  The display file is a display list
@@ -10,39 +10,39 @@
 
 <H3>Flags:</H3>
 <DL>
-<DT><B>-q</B>
+<DT><b>-q</b>
 <DD>Suppress progress report &amp; min/max information
 
-<DT><B>-f</B>
+<DT><b>-f</b>
 <DD>Use flat shading rather than gradient
 </DL>
 
 <H3>Parameters:</H3>
 <DL>
-<DT><B>grid3</B>
+<DT><b>grid3</b>
 <DD>Name of an existing 3D raster map
 
-<DT><B>dspf</B>
+<DT><b>dspf</b>
 <DD>Name of output display file
 
-<DT><B>levels</B>
+<DT><b>levels</b>
 <DD>List of thresholds for isosurfaces
 
-<DT><B>min</B>
+<DT><b>min</b>
 <DD>Minimum isosurface level
 
-<DT><B>max</B>
+<DT><b>max</b>
 <DD>Maximum isosurface level
 
-<DT><B>step</B>
+<DT><b>step</b>
 <DD>Positive increment between isosurface levels
 
-<DT><B>tnum</B>
+<DT><b>tnum</b>
 <DD>Number of isosurface threshold levels
 <DD>Default: 7
 </DL>
 
-<H2>Example:</H2>
+<h2>Example:</h2>
 With grid3 data (<I>phdata</I>) in the range 3-7, 
 we only want to see isosurface values for the range 4-6.  
 Any of these commands will produce the same results:<br>
@@ -52,7 +52,7 @@
 r3.mkdspf phdata dspf=iso min=4.0 max=6.0 step=0.5
 </pre>
 
-<H2>NOTE</H2>
+<h2>NOTE</h2>
 Currently the grid3 file must be in the user's mapset since the 
 display files being created are specific to particular grid3 
 files and are contained in directories under them.  
@@ -60,9 +60,9 @@
 may make display files from others' grid3 files without having to
 copy them to their mapset.  
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 <SIGNATURE>Bill Brown,
-<A HREF="mailto:brown at gis.uiuc.edu">bbrown at gis.uiuc.edu</A>
+<a href="mailto:brown at gis.uiuc.edu">bbrown at gis.uiuc.edu</a>
 </SIGNATURE>
 
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/scripts/d.correlate/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.correlate/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.correlate/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,80 +1,75 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.correlate</EM> is a shell (sh(1)) script that
+<em>d.correlate</em> is a shell (sh(1)) script that
 graphically displays the results of an
 
-<EM><A HREF="r.stats.html">r.stats</A></EM> 
+<em><a href="r.stats.html">r.stats</a></em> 
 
 run on two raster map layers.  This shell script is useful
 for highlighting the correlation (or lack of it) among data
 layers (scattergram).
 
-<P>
+<p>
 
 The results are displayed in the active display frame on
-the user's graphics monitor.  <EM>d.correlate</EM> erases
+the user's graphics monitor.  <em>d.correlate</em> erases
 the active frame before displaying results.
 
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 <H3>Parameters:</H3>
 
 <DL>
 
-<DT><EM>layer1 layer2 </EM>[<EM>layer3</EM> [<EM>layer4</EM>]]
+<DT><em>layer1 layer2 </em>[<em>layer3</em> [<em>layer4</em>]]
 
 <DD>The names of from two to four existing raster map layers
 to be included in the correlation.
 </DL>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 This is a shell script that uses 
-<EM><A HREF="r.stats.html">r.stats</A></EM> 
-and the UNIX <EM>awk</EM> command
+<em><a href="r.stats.html">r.stats</a></em> 
+and the UNIX <em>awk</em> command
 to calculate the correlation among data layers,
 and uses 
-<EM><A HREF="d.text.html">d.text</A></EM> and 
-<EM><A HREF="d.graph.html">d.graph</A></EM> to display the results.
+<em><a href="d.text.html">d.text</a></em> and 
+<em><a href="d.graph.html">d.graph</a></em> to display the results.
 
-<P>
+<p>
 
 If three or four map layers are specified, the correlation
 among each combination of two data layers is displayed.
 
-<H2>EXAMPLE</H2>
+<h2>FILES</h2>
 
-North Carolina sample dataset:
-<div class="code"><pre>
-d.correlate -t layer1=lsat7_2002_10 layer2=lsat7_2002_20
-</pre></div>
-
-
-<H2>FILES</H2>
-
 This program is simply a shell script.  Users are
 encouraged to make their own shell script programs using
 similar techniques.  See <KBD>$GISBASE/scripts/d.correlate</KBD>.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="d.text.html">d.text</A>,
-<A HREF="d.graph.html">d.graph</A>,
-<A HREF="r.coin.html">r.coin</A>,
-<A HREF="r.regression.line.html">r.regression.line</A>,
-<A HREF="r.stats.html">r.stats</A>
-</EM>
+The UNIX <em>awk</em> command.
 
 
-<H2>AUTHOR</H2>
+<p>
 
+<em>
+<a href="d.text.html">d.text</a>,
+<a href="d.graph.html">d.graph</a>,
+<a href="r.coin.html">r.coin</a>,
+<a href="r.regression.line.html">r.regression.line</a>,
+<a href="r.stats.html">r.stats</a>
+</em>
+
+<h2>AUTHOR</h2>
+
 Michael Shapiro,
-<A HREF="http://www.cecer.army.mil/">U.S.Army Construction Engineering 
-Research Laboratory</A>
+<a href="http://www.cecer.army.mil/">U.S.Army Construction Engineering 
+Research Laboratory</a>
 <p>
-Rewritten to GRASS 6 (from csh to sh) by Markus Neteler<BR>
+Rewritten to GRASS 6 (from csh to sh) by Markus Neteler<br>
 Trend line and model fix option added by Hamish Bowman
 
-<p>
-<i>Last changed: $Date$</i>
+<p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/scripts/d.font.freetype/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.font.freetype/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.font.freetype/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.font.freetype</EM>
+<em>d.font.freetype</em>
 selects the freetype font in which text will be displayed on the user's 
 graphics monitor.
 <BR>
@@ -13,7 +13,7 @@
 This internationalization can now display Japanese and other (asian) language
 texts from vector labels, legends, etc.
 
-<H2>USAGE</H2>
+<h2>USAGE</h2>
 
 To enable displaying of a TrueType font on the GRASS monitor, run:
 
@@ -45,7 +45,7 @@
 <BR>
 
 
-<H2>DEFINITION FILE</H2>
+<h2>DEFINITION FILE</h2>
 
 To help users select fonts conveniently, the definition file,
 <TT>$(GISBASE)/etc/freetypecap</TT>, is provided.  Its format is as follows:
@@ -58,16 +58,16 @@
 See the file for examples.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.text.html">d.text</A></EM><br>
-<EM><A HREF="d.text.freetype.html">d.text.freetype</A></EM><br>
-<EM><A HREF="d.font.html">d.font</A></EM><br>
-<EM><A HREF="d.vect.html">d.vect</A></EM><br>
+<em><a href="d.text.html">d.text</a></em><br>
+<em><a href="d.text.freetype.html">d.text.freetype</a></em><br>
+<em><a href="d.font.html">d.font</a></em><br>
+<em><a href="d.vect.html">d.vect</a></em><br>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
-<A HREF="http://www.foss4g.org">FOSS4G</A> members.<br>
+<a href="http://www.foss4g.org">FOSS4G</a> members.<br>
 Project sponsored by IPA (Information-technology Promotion Agency, Japan)
 
 <p>

Modified: grass/branches/develbranch_6/scripts/d.monsize/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.monsize/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.monsize/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,15 +1,15 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>d.monsize</EM> Starts or restarts a display monitor at a specified height and width.
+<em>d.monsize</em> Starts or restarts a display monitor at a specified height and width.
 <br>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.mon.html">d.mon</A></EM>,
+<em><a href="d.mon.html">d.mon</a></em>,
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Unknown
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/scripts/d.mvmon/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.mvmon/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.mvmon/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -16,10 +16,10 @@
 # now you have map.png.
 </pre>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
  
-<EM><a href="d.save.html">d.save</a></EM>,
-<EM><a href="d.redraw.html">d.redraw</a></EM>
+<em><a href="d.save.html">d.save</a></em>,
+<em><a href="d.redraw.html">d.redraw</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/scripts/d.out.file/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.out.file/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.out.file/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,21 +1,21 @@
-<H2>DESCRIPTION</H2>
-<EM>(GRASS Shell Script)</EM>
-<P>
-<EM><b>d.out.file</b></EM> uses <em>d.save</em>, the GRASS PNG or PostScript
+<h2>DESCRIPTION</h2>
+<em>(GRASS Shell Script)</em>
+<p>
+<em><b>d.out.file</b></em> uses <em>d.save</em>, the GRASS PNG or PostScript
 driver, and <tt>gdal_translate</tt> to export the currently selected X display
 monitor to a graphics file of several formats. Output image size can be set
 prior to export.
-<P>
+<p>
 PNG and PPM formats are supported directly by the GRASS PNG driver and
 PostScript output is supported directly by the GRASS PS driver.
-<P>
+<p>
 TIFF, GeoTIFF, JPEG, and BMP formats are supported by using <tt>gdal_translate</tt>
 on PPM format files produced by the GRASS PNG driver. Different levels of
 compression/quality are supported for JPEG files.
-<P>
+<p>
 Graphic files are exported to the user's current working directory by
 default, but different paths may be specified in the output field.
-<P>
+<p>
 EPS files are not compatible with <em>d.frame</em>, as it is not possible to nest
 encapsulation. Only the first frame will be drawn. In these cases it is
 recommended to output to regular PostScript format and then use a utility
@@ -23,7 +23,7 @@
 Output from this module using the regular PostScript format may contain
 subframes.
 
-<P>
+<p>
 GeoTIFF export is provided as a convenience. For raster export
 it is generally preferable to use the <em>r.out.gdal</em> or
 <em>r.out.tiff</em> modules. The advantage of using <em>d.out.file</em>
@@ -36,7 +36,7 @@
 <em>d.out.file</em>'s <b>size</b> parameter as columns,rows.
 
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 <h4>Speafish dataset</h4>
 
@@ -77,27 +77,27 @@
 </pre></div>
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="d.frame.html">d.frame</A>,
-<A HREF="d.mon.html">d.mon</A>,
-<A HREF="d.out.png.html">d.out.png</A>,
-<A HREF="d.save.html">d.save</A>,
-<A HREF="g.region.html">g.region</A>,
-<A HREF="ps.map.html">ps.map</A>,
-<A HREF="r.out.gdal.html">r.out.gdal</A>,
-<A HREF="r.out.tiff.html">r.out.tiff</A>
-</EM><BR>
-<A HREF="cairodriver.html">Cairo driver</A>,
-<A HREF="pngdriver.html">PNG driver</A>,
-<A HREF="psdriver.html">PostScript driver</A>,
-<A HREF="htmlmapdriver.html">HTML-map driver</A>,
-<A HREF="xdriver.html">X driver</A><BR>
-<A HREF="http://www.gdal.org">GDAL Homepage</a>
+<em>
+<a href="d.frame.html">d.frame</a>,
+<a href="d.mon.html">d.mon</a>,
+<a href="d.out.png.html">d.out.png</a>,
+<a href="d.save.html">d.save</a>,
+<a href="g.region.html">g.region</a>,
+<a href="ps.map.html">ps.map</a>,
+<a href="r.out.gdal.html">r.out.gdal</a>,
+<a href="r.out.tiff.html">r.out.tiff</a>
+</em><BR>
+<a href="cairodriver.html">Cairo driver</a>,
+<a href="pngdriver.html">PNG driver</a>,
+<a href="psdriver.html">PostScript driver</a>,
+<a href="htmlmapdriver.html">HTML-map driver</a>,
+<a href="xdriver.html">X driver</a><BR>
+<a href="http://www.gdal.org">GDAL Homepage</a>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 Michael Barton, Arizona State University<BR>
 Hamish Bowman, Otago University, New Zealand

Modified: grass/branches/develbranch_6/scripts/d.out.gpsdrive/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.out.gpsdrive/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.out.gpsdrive/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,27 +1,27 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.out.gpsdrive</EM> exports the current GRASS display monitor to a 
-<A HREF="http://www.gpsdrive.de">GpsDrive</a> compatible backdrop 
+<em>d.out.gpsdrive</em> exports the current GRASS display monitor to a 
+<a href="http://www.gpsdrive.de">GpsDrive</a> compatible backdrop 
 image and updates the GpsDrive image list with the appropriate geo-referencing
 information.
 
-<P>
+<p>
 <b><em>Use at your own risk. Do not use as a primary means of navigation.
 This software comes with absolutely no warranty.</em></b>
 
 
-<P>
-<H2>NOTES</H2>
+<p>
+<h2>NOTES</h2>
 
 Maps are saved in the user's <tt>~/.gpsdrive/maps/</tt> directory.
 Geo-referencing information is added to the user's
 <tt>~/.gpsdrive/maps/map_koord.txt</tt> file.
 
-<P>
+<p>
 JPEG output requires the <tt>pngtopnm</tt> and <tt>pnmtojpeg</tt> programs
 from the <a href="http://netpbm.sourceforge.net">NetPBM tools</a>.
 
-<P>
+<p>
 GpsDrive assumes northings are not rotated compared to true-geographic north.
 If you are using a projection with significant curvature away from the central
 meridian, or a map datum with a significant rotational component, then you will 
@@ -31,15 +31,15 @@
 centered directly on the center of your map. You can check the local
 convergence angle (difference between grid north and true north) with
 "<tt>g.region -n</tt>".
-<P>
+<p>
 To avoid distortion, anything more global than 1:150k to 1:500k
 should come from a lat/lon location. Anything more local than that
 will look better coming from a projected system such as UTM.
-<P>
+<p>
 The extent of a map given a target scale can be calculated with 
 <tt>x_ext=scale*(1280/2817.95)</tt>. e.g. 1:50,000 translates to approx
 a 22.7km x 18.2km image window in the GIS.
-<P>
+<p>
 For your convenience (calculations are rough, but nominal):
 <div class="code"><pre>
 1:50,000 uses a region 22.7km x 18.2km.
@@ -54,12 +54,12 @@
 Maps exported from locations of other projections will be given a 
 "<tt>map_</tt>" prefix. This is done so GpsDrive knows how to scale the 
 image correctly.
-<P>
+<p>
 GpsDrive requires backdrop images to be 1280x1024 pixels in size. While this
 script takes care of that automatically, to avoid annoying bands on the sides
 of your image you may want to set up your display monitor at half-scale (same
 aspect ratio) and use d.zoom to select the full frame. For example:
-<P>
+<p>
 <div class="code"><pre>
 export GRASS_WIDTH=640
 export GRASS_HEIGHT=512
@@ -76,7 +76,7 @@
 It may be desirable to create a series of image tiles covering a large area.
 An easy way to do this is to run <em>d.out.gpsdrive</em> in a shell loop.
 Here is an example Bash script contributed by Manuel Morales:
-<P>
+<p>
 <div class="code"><pre>
 #!/bin/bash
 
@@ -122,23 +122,23 @@
 
 
 <BR><BR>
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.info.html">d.info</A></EM>,
-<EM><A HREF="d.grid.html">d.grid</A></EM>,
-<EM><A HREF="d.out.file.html">d.out.file</A></EM>,
-<EM><A HREF="d.out.png.html">d.out.png</A></EM>,
-<EM><A HREF="d.save.html">d.save</A></EM>,
-<EM><A HREF="g.region.html">g.region</A></EM>,
-<EM><A HREF="v.in.garmin.html">v.in.garmin</A></EM>
+<em><a href="d.info.html">d.info</a></em>,
+<em><a href="d.grid.html">d.grid</a></em>,
+<em><a href="d.out.file.html">d.out.file</a></em>,
+<em><a href="d.out.png.html">d.out.png</a></em>,
+<em><a href="d.save.html">d.save</a></em>,
+<em><a href="g.region.html">g.region</a></em>,
+<em><a href="v.in.garmin.html">v.in.garmin</a></em>
 <BR><BR>
-The GRASS <A HREF="pngdriver.html">PNG driver</A><BR>
+The GRASS <a href="pngdriver.html">PNG driver</a><BR>
 
-The <A HREF="http://www.gpsdrive.de">GpsDrive</a> project<BR>
-The <A HREF="http://gpsd.berlios.de">gpsd</a> personal GPS server project
+The <a href="http://www.gpsdrive.de">GpsDrive</a> project<BR>
+The <a href="http://gpsd.berlios.de">gpsd</a> personal GPS server project
 <BR><BR>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 Hamish Bowman<BR> <i>
 Department of Marine Science<BR>
 University of Otago<BR>

Modified: grass/branches/develbranch_6/scripts/d.out.png/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.out.png/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.out.png/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -4,22 +4,22 @@
 </em> instead.
 </H3>
 
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.out.png</EM> - uses d.redraw and the PNG driver to save display in active
+<em>d.out.png</em> - uses d.redraw and the PNG driver to save display in active
 monitor to a PNG file in users home directory. A *.png extension is
 automatically added to the file.
 <br>
 
-<H2>SEE ALSO</H2>
-<EM>
-<A HREF="d.out.file.html">d.out.file</A>,
-<A HREF="d.redraw.html">d.redraw</A>,
-<A HREF="pngdriver.html">PNG driver</A>
-</EM>
+<h2>SEE ALSO</h2>
+<em>
+<a href="d.out.file.html">d.out.file</a>,
+<a href="d.redraw.html">d.redraw</a>,
+<a href="pngdriver.html">PNG driver</a>
+</em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Barton, Arizona State University
 <p>

Modified: grass/branches/develbranch_6/scripts/d.polar/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.polar/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.polar/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -5,16 +5,16 @@
 The input angle map orientation must be counter-clockwise (CCW)
 from east, and the angle map units must be degrees. This refers
 to the standard orientation of GRASS (e.g., see <em>r.slope.aspect</em>).
-<P>
+<p>
 The radius of the outer circle is defined by the total number
 of pixels in the map. If the polar diagram does not reach the
 outer circle, no data (NULL) pixels were found in the map.
-<P>
+<p>
 The vector in the diagram indicates a prevailing direction, its length
 the strength of such direction. In case all angle vectors are oriented
 along the same direction, the length for the vector is maximal (in fact 
 it is equal to length of the most populated bin of the underlying histogram).
-<P>
+<p>
 As a side effect, the quality of the angle map can be derived from
 the diagram. Strong spikes may indicate an over-representation of
 the related angle(s) which happens in particular if integer maps
@@ -26,7 +26,7 @@
 as EPS file. If the <b>-x</b> flag is used <em>xgraph</em> is lauched.
 Otherwise <em>d.polar</em> will use <em>d.graph</em> to draw the plot
 in the current display frame.
-<P>
+<p>
 If <em>d.polar</em> is used on an aspect map generated by
 <em>r.slope.aspect</em>, the <b>undef</b> parameter should be
 set to 0 to distinguish NO DATA (NULL) areas from areas where

Modified: grass/branches/develbranch_6/scripts/d.rast.edit/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.rast.edit/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.rast.edit/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,11 +1,11 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-The <EM>d.rast.edit</EM> program allows users to interactively
+The <em>d.rast.edit</em> program allows users to interactively
 edit cell category values in a raster map layer displayed to the
 graphics monitor using a mouse cursor.
 
 
-<H2>USAGE</H2>
+<h2>USAGE</h2>
 
 <H3>Overview window</H3>
 
@@ -19,14 +19,14 @@
 Cell editing is done using a mouse cursor to choose menu selections
 and indicate areas on the displayed raster map that are to be edited.
 
-<P>
+<p>
 Selections available at the top of the edit window are <b>Save</b> and
 <b>Exit</b>.
-<P>
+<p>
 
 As the mouse travels over the cells in the edit window you are shown the
 current coordinates and current cell values under the cursor.
-<P>
+<p>
 To change the value of a cell put the new value to use in the "New value"
 box at the bottom left of the edit window under the coordinate information
 bar. A value of "*" indicates a NULL value should be used.
@@ -35,31 +35,31 @@
 <H3>Arrows</H3>
 
 This function is available for users editing aspect maps.  The
-<EM><A HREF="d.rast.arrow.html">d.rast.arrow</A></EM> program is
+<em><a href="d.rast.arrow.html">d.rast.arrow</a></em> program is
 called, which draws arrows over the displayed
 cells to indicate the downslope direction of the cell.
 You can set the aspect map to use on the command line.
 Aspect maps are expected to be in regular "GRASS" format, as produced by
-<EM><A HREF="r.slope.aspect.html">r.slope.aspect</A></EM>; i.e. degrees
+<em><a href="r.slope.aspect.html">r.slope.aspect</a></em>; i.e. degrees
 counter-clockwise from east.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 There is no "undo" command or way to exit edit mode without saving
 changes.
-<P>
+<p>
 Any MASK in place will be respected when writing the new raster map layer,
 including any edits to the MASKed areas.
 
 <H3>Geographic Region Concerns</H3>
 
-<EM>d.rast.edit</EM> reads the region definition for the raster map layer
+<em>d.rast.edit</em> reads the region definition for the raster map layer
 being edited from its internal cell header file. The new, edited copy of
 the raster layer will be created with the same resolution and region
 dimensions.
-<P>
-The primary bane of the <EM>d.rast.edit</EM> program involves large map
+<p>
+The primary bane of the <em>d.rast.edit</em> program involves large map
 layers with lots of rows and columns) and/or slow computers,
 since the program must read and write raster map layers row by row for
 the full size of the map layer as dictated by its region size and resolution.
@@ -69,46 +69,46 @@
 times during the editing session).
 
 
-<H2>TODO</H2>
+<h2>TODO</h2>
 
 <!-- not true, but it would be nice
-<EM>d.rast.edit</EM> will not create a new raster map layer if
+<em>d.rast.edit</em> will not create a new raster map layer if
 the user makes no cell edits while running the program.
-<P>
+<p>
 -->
 
-It would be nice to incorporate a scrollable version of <EM>
-<A HREF="d.legend.html">d.legend</A>
-</EM>
+It would be nice to incorporate a scrollable version of <em>
+<a href="d.legend.html">d.legend</a>
+</em>
 (such that one could see a label legend for files with many categories on
 a standard size sub-frame).  It would be even nicer to be able
 to select the category values from a graphical legend when editing
 cell values (thereby saving a trip to the text frame to type in the
 new value).
 
-<P>
+<p>
 Perhaps method(s) for multiple  or mass cell edits would be useful.
 This could be done by providing modes in which the user may:<BR>
 1) edit a block of cells to a given value by drawing a box;<BR>
 2) be able to choose a given value which is automatically used as
 the new value on each cell chosen until a different value is desired.
 
-<P>
+<p>
 There is no interrupt handling. <!-- ?? --> This could leave files in .tmp
 or (rarely) result in half-baked raster maps.  The original file
 would survive unscathed by an interrupt at most any point in execution.
 Beware of exiting the program
-by means other than using <EM>exit</EM> on the <EM>Main Menu</EM>.
+by means other than using <em>exit</em> on the <em>Main Menu</em>.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 <em>
 <a href="d.rast.arrow.html">d.rast.arrow</a>,
 <a href="d.rast.num.html">d.rast.num</a>
 </em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Tcl/Tk version: Glynn Clements<BR>
 <BR>

Modified: grass/branches/develbranch_6/scripts/d.resize/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.resize/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.resize/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,15 +1,15 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>d.resize</EM> Sets the current display monitor window size to specified height and width.
+<em>d.resize</em> Sets the current display monitor window size to specified height and width.
 <br>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.monsize.html">d.monsize</A></EM>,
+<em><a href="d.monsize.html">d.monsize</a></em>,
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Unknown
 Update to GRASS 5.7 by Michael Barton, Arizona State University

Modified: grass/branches/develbranch_6/scripts/d.slide.show/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.slide.show/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.slide.show/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,16 +1,16 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>d.slide.show</EM> is a UNIX Bourne shell macro which
+<em>d.slide.show</em> is a UNIX Bourne shell macro which
 clears the entire screen, creates a series of display
 frames on the graphics monitor, and displays in slideshow
 format each of the raster/vector map layers listed in the
-user-specified <EM>mapsets</EM>.  This is a shell script
+user-specified <em>mapsets</em>.  This is a shell script
 example which makes extensive use of GRASS and UNIX
 commands.  Users are encouraged to examine this macro and
 develop similar on-line demos using their own data files.
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 The following command sequence shows the available raster
 maps, saves the view to a PNG file and then converts it
@@ -34,18 +34,18 @@
 </pre></div>
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="d.erase.html">d.erase</A><BR>
-<A HREF="d.frame.html">d.frame</A><BR>
-<A HREF="d.text.html">d.text</A><BR>
-<A HREF="g.mapsets.html">g.mapsets</A><BR>
-<A HREF="xganim.html">xganim</A><BR>
-</EM>
+<em>
+<a href="d.erase.html">d.erase</a><BR>
+<a href="d.frame.html">d.frame</a><BR>
+<a href="d.text.html">d.text</a><BR>
+<a href="g.mapsets.html">g.mapsets</a><BR>
+<a href="xganim.html">xganim</a><BR>
+</em>
 <BR>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 James Westervelt, U.S.Army Construction Engineering 
 Research Laboratory
 <br>

Modified: grass/branches/develbranch_6/scripts/d.split/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.split/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.split/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,30 +1,30 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.split</EM> Divides active display into two equal frames horizontally or vertically, and displays raster maps or runs GRASS commands in each frame.
+<em>d.split</em> Divides active display into two equal frames horizontally or vertically, and displays raster maps or runs GRASS commands in each frame.
 <br>
-This module has been superseded by the new <A HREF="d.split.frame.html">d.split.frame</A>
+This module has been superseded by the new <a href="d.split.frame.html">d.split.frame</a>
 module, which is much nicer.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Commands such as <em>d.rast.leg</em> will interfere with the frame creation
 and cannot be used.
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 <tt>
 d.split view=horiz cmd1="d.rast slope" cmd2="d.histogram slope"
 </tt>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="d.frame.html">d.frame</A>,
-<A HREF="d.split.frame.html">d.split.frame</A>
-</EM>
+<em>
+<a href="d.frame.html">d.frame</a>,
+<a href="d.split.frame.html">d.split.frame</a>
+</em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 GRASS team 1989
 Update to GRASS 5.7 by Michael Barton, Arizona State University

Modified: grass/branches/develbranch_6/scripts/d.split.frame/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.split.frame/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.split.frame/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,10 +1,10 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>d.split.frame</EM> divides the active display into a number of equal
+<em>d.split.frame</em> divides the active display into a number of equal
 frames, either horizontally or vertically.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Frame labels are created as Spanish numbers to distinguish them from
 monitor numbers, etc. These are "<i>uno, dos, tres, cuatro, cinco,
@@ -12,12 +12,12 @@
 and dieciseis</i>" for frames 1-16.
 The background frame is called <i>full_screen</i>.
 
-<P>
+<p>
 Commands such as <em>d.rast.leg</em> will interfere with the frame creation
 and cannot be used.
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Split the display monitor into six frames (3x2), jump to the third frame,
 and draw a map.
@@ -29,15 +29,15 @@
 <BR>
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="d.frame.html">d.frame</A>,
-<A HREF="d.frame.html">d.split</A>
-</EM>
+<em>
+<a href="d.frame.html">d.frame</a>,
+<a href="d.frame.html">d.split</a>
+</em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Hamish Bowman<BR>
 <i>Dunedin, New Zealand</i>

Modified: grass/branches/develbranch_6/scripts/d.text.freetype/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/d.text.freetype/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/d.text.freetype/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,7 +1,7 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>d.text.freetype</EM>
+<em>d.text.freetype</em>
 draws text in the graphics monitor's active display frame using TrueType
 fonts already installed on the user's system.
 <BR>
@@ -11,34 +11,34 @@
 
 <DL>
 
-<DT><B>at=</B><EM>x,y</EM>
+<DT><b>at=</b><em>x,y</em>
 <DD>Locates the text at this screen position (percentage, [0,0] is bottom
     left). If this option is omitted, 
     the user will be prompted to use the mouse to specify the location.
-<DT><B>font=</B><EM>name</EM>
+<DT><b>font=</b><em>name</em>
 <DD>Specifies a font listed in the GRASS 'freetypecap' definition file.
 
-<DT><B>charset=</B><EM>name</EM>
-<DD>Sets character encoding for input <B>text</B>. (e.g. <TT>ISO-8859-1</TT>)
+<DT><b>charset=</b><em>name</em>
+<DD>Sets character encoding for input <b>text</b>. (e.g. <TT>ISO-8859-1</TT>)
 
-<DT><B>color=</B><EM>name</EM>
-<DD>Sets text color to <EM>name</EM> or <EM>R:G:B triplet</EM>.
+<DT><b>color=</b><em>name</em>
+<DD>Sets text color to <em>name</em> or <em>R:G:B triplet</em>.
 	It can also be a hexadecimal value of <TT>0xRRGGBB</TT>
 	(deprecated).<BR>
     Options: red, orange, yellow, green, blue, indigo, 
     violet, gray, white, and black<BR>
-    Default: <EM>gray</EM><BR>
+    Default: <em>gray</em><BR>
 
-<DT><B>size=</B><EM>value</EM>
+<DT><b>size=</b><em>value</em>
 <DD>Sets text height in percent of available frame height.<BR>
     Default: 10
 
-<DT><B>align=</B><EM>name</EM>
+<DT><b>align=</b><em>name</em>
 <DD>Aligns text in this way.<BR>
     Options: ll, lc, lr, cl, cc, cr, ul, uc, ur<BR>
     l?: Lower, c?: Vertically Centered, u?: Upper,<BR>
     ?l: Left, ?c: Horizontally Centered, ?r: Right<BR>
-    Default: <EM>ll</EM> (Lower Left)<BR>
+    Default: <em>ll</em> (Lower Left)<BR>
 
 </DL>
 
@@ -62,44 +62,44 @@
 <H4>Commands</H4>
 
 <DL>
-<DT><DD>.F {font|path}[:charset] <EM>font</EM>
+<DT><DD>.F {font|path}[:charset] <em>font</em>
 <DD>
-<DT><DD>.C {color_name|R:G:B} <EM>color</EM> (default: gray)
+<DT><DD>.C {color_name|R:G:B} <em>color</em> (default: gray)
 <DD>
-<DT><DD>.S [+|-]size[p] <EM>size</EM> (default: 5)
+<DT><DD>.S [+|-]size[p] <em>size</em> (default: 5)
 <DD>
-<DT><DD>.B {0|1} <EM>bold</EM> (default: 0)
+<DT><DD>.B {0|1} <em>bold</em> (default: 0)
 <DD>
-<DT><DD>.A {ll|lc|lr|cl|cc|cr|ul|uc|ur} <EM>align</EM> (default: ll)
+<DT><DD>.A {ll|lc|lr|cl|cc|cr|ul|uc|ur} <em>align</em> (default: ll)
 <DD>
-<DT><DD>.R [+|-]rotation[r] <EM>rotation</EM> (default: 0)
+<DT><DD>.R [+|-]rotation[r] <em>rotation</em> (default: 0)
 <DD>
-<DT><DD>.I linespacing <EM>linespacing</EM> (default: 1.1)
+<DT><DD>.I linespacing <em>linespacing</em> (default: 1.1)
 <DD>
-<DT><DD>.X [+|-]x[%|p] <EM>x-coord</EM>
+<DT><DD>.X [+|-]x[%|p] <em>x-coord</em>
 <DD>
-<DT><DD>.Y [+|-]y[%|p] <EM>y-coord</EM>
+<DT><DD>.Y [+|-]y[%|p] <em>y-coord</em>
 <DD>
-<DT><DD>.L {0|1} <EM>linefeed</EM> (default: 1)
+<DT><DD>.L {0|1} <em>linefeed</em> (default: 1)
 <DD>
-<DT><DD>.E [+|-]east[%|p] <EM>x-origin</EM>
+<DT><DD>.E [+|-]east[%|p] <em>x-origin</em>
 <DD>
-<DT><DD>.N [+|-]north[%|p] <EM>y-origin</EM>
+<DT><DD>.N [+|-]north[%|p] <em>y-origin</em>
 <DD>
-<DT><DD>.. <EM>dot</EM>
+<DT><DD>.. <em>dot</em>
 <DD>
 </DL>
 
 To end input, press Ctrl-d on a blank line.
 <BR><BR>
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 <H4>Standard mode:</H4>
 
-<TT><B>d.text.freetype</B> text="GRASS GIS" -g at=2107055,5603133 \<BR>
+<TT><b>d.text.freetype</b> text="GRASS GIS" -g at=2107055,5603133 \<BR>
 &nbsp;&nbsp;&nbsp;&nbsp;&nbsp;size=7 path=/usr/X11R6/lib/X11/fonts/TTF/luximb.ttf</TT>
-<P>
+<p>
 
 <H4>Command mode:</H4>
 
@@ -109,7 +109,7 @@
 "<TT><font color=gray>for more details.</font></TT>".
 
 <div class="code"><pre>
-<B>d.text.freetype -c</B>
+<b>d.text.freetype -c</b>
 .F /usr/X11R6/lib/X11/fonts/TTF/luximb.ttf:ISO-8859-1
 .S 20p
 .L 0
@@ -124,11 +124,11 @@
 </pre></div>
 
 Command mode instructions may also be read directly from a text file:<BR><BR>
-<TT><B>d.text.freetype</B> -c &lt; test.input</TT>
+<TT><b>d.text.freetype</b> -c &lt; test.input</TT>
 <BR><BR>
 
 
-<H2>DEFINITION FILE</H2>
+<h2>DEFINITION FILE</h2>
 
 To help users select fonts conveniently, the definition file,
 <TT>$(GISBASE)/etc/freetypecap</TT>, is provided.  Its format is as follows:
@@ -142,21 +142,21 @@
 <BR><BR>
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.text.html">d.text</A></EM><br>
-<EM><A HREF="d.font.freetype.html">d.font.freetype</A></EM><br>
-<EM><A HREF="d.font.html">d.font</A></EM><br>
-<EM><A HREF="d.title.html">d.title</A></EM><br>
-<EM><A HREF="d.where.html">d.where</A></EM><br>
+<em><a href="d.text.html">d.text</a></em><br>
+<em><a href="d.font.freetype.html">d.font.freetype</a></em><br>
+<em><a href="d.font.html">d.font</a></em><br>
+<em><a href="d.title.html">d.title</a></em><br>
+<em><a href="d.where.html">d.where</a></em><br>
 <BR><BR>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Huidae Cho
 &lt;<a href=mailto:grass4u at gmail.com>grass4u at gmail.com</a>&gt;
-<P>
+<p>
 Updates by Hamish Bowman, NZ
 
 <p>

Modified: grass/branches/develbranch_6/scripts/db.dropcol/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/db.dropcol/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/db.dropcol/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -30,9 +30,9 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="db.droptable.html">db.droptable</a></em>,
-<em><a HREF="db.execute.html">db.execute</a></em>,
-<em><a HREF="v.db.dropcol.html">v.db.dropcol</a></em>
+<em><a href="db.droptable.html">db.droptable</a></em>,
+<em><a href="db.execute.html">db.execute</a></em>,
+<em><a href="v.db.dropcol.html">v.db.dropcol</a></em>
 
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/scripts/db.droptable/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/db.droptable/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/db.droptable/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -28,13 +28,13 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.describe.html">db.describe</a>,
-<a HREF="db.droptable.html">db.droptable</a>,
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="db.login.html">db.login</a>,
-<a HREF="db.tables.html">db.tables</a>,
-<a HREF="v.db.droptable.html">v.db.droptable</a>,
-<a HREF="sql.html">GRASS SQL interface</a>
+<a href="db.describe.html">db.describe</a>,
+<a href="db.droptable.html">db.droptable</a>,
+<a href="db.execute.html">db.execute</a>,
+<a href="db.login.html">db.login</a>,
+<a href="db.tables.html">db.tables</a>,
+<a href="v.db.droptable.html">v.db.droptable</a>,
+<a href="sql.html">GRASS SQL interface</a>
 </em>
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/scripts/db.in.ogr/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/db.in.ogr/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/db.in.ogr/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -49,7 +49,7 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="v.in.ogr.html">v.in.ogr</a></em><br>
+<em><a href="v.in.ogr.html">v.in.ogr</a></em><br>
 <em><a href="sql.html">GRASS SQL interface</a></em>
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/scripts/db.test/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/db.test/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/db.test/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>db.test</EM> tests database driver and database server running 
+<em>db.test</em> tests database driver and database server running 
 set of SQL queries. Database must exist and connection must be set
 by db.connect.
 
@@ -16,12 +16,12 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="sql.html">GRASS SQL interface</a>,
-<a HREF="db.connect.html">db.connect</a>,
-<a HREF="db.describe.html">db.describe</a>,
-<a HREF="db.drivers.html">db.drivers</a>
+<a href="sql.html">GRASS SQL interface</a>,
+<a href="db.connect.html">db.connect</a>,
+<a href="db.describe.html">db.describe</a>,
+<a href="db.drivers.html">db.drivers</a>
 </em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 Radim Blazek
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/scripts/g.extension/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/g.extension/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/g.extension/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -5,7 +5,7 @@
 <p>
 Re-running the script on an installed GRASS Addon re-installs
 the requested extension which may include updates.
-<P>
+<p>
 If your GRASS_ADDON_PATH contains more than one path, the default
 action is to use the first directory in the list.
 

Modified: grass/branches/develbranch_6/scripts/g.mlist/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/g.mlist/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/g.mlist/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,33 +1,33 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>g.mlist</EM> is an extended version of 
-<EM><a href="g.list.html">g.list</a></EM> which
+<em>g.mlist</em> is an extended version of 
+<em><a href="g.list.html">g.list</a></em> which
 provides regular-expression and wildcard support.
-<EM>g.mlist</EM> will only print map names and an optional separator,
+<em>g.mlist</em> will only print map names and an optional separator,
 without extraneous output. In addition, map search is also available.
 
-<P>
-See the <EM>g.list</EM> help page for discussion of module options.
+<p>
+See the <em>g.list</em> help page for discussion of module options.
 
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 List all available GRASS data base files:
 <BR>
 <TT>g.mlist type=all</TT>
-<P>
+<p>
 
 List all raster and vector maps:
 <BR>
 <TT>g.mlist type=rast,vect</TT>
-<P>
+<p>
 
 <H3>Wildcards:</H3>
 
 List all vector maps starting with letter "r":
 <BR>
 <TT>g.mlist type=vect pattern="r*"</TT>
-<P>
+<p>
 
 List certain raster maps with one variable character/number:
 <BR>
@@ -37,32 +37,32 @@
 
 Print out all soils map with "soils" in their name:<BR>
 <TT>g.mlist -r type=rast pattern='^soils'</TT>
-<P>
+<p>
 
 Print out "tmp" if "tmp" raster map exists:<BR>
 <TT>g.mlist -r pattern='^tmp$'</TT>
-<P>
+<p>
 
 Print out "tmp0" ..."tmp9" if corresponding vector map exists (each map name linewise):<BR>
 <TT>g.mlist -r type=vect pattern='^tmp[0-9]$'</TT>
-<P>
+<p>
 
 Print out "tmp0" ..."tmp9" if corresponding vector map exists (each map name comma separated):<BR>
 <TT>g.mlist -r type=vect sep=, pattern='^tmp[0-9]$'</TT>
-<P>
+<p>
 This may be useful for other programs' parameter input 
-(e.g. <EM><a href="r.series.html">r.series</a></EM>).
+(e.g. <em><a href="r.series.html">r.series</a></em>).
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="g.list.html">g.list</A></EM>
-<P>
-<A HREF="http://en.wikipedia.org/wiki/Regular_expression">Regular expressions</A>
+<em><a href="g.list.html">g.list</a></em>
+<p>
+<a href="http://en.wikipedia.org/wiki/Regular_expression">Regular expressions</a>
 (aka regex) - from Wikipedia, the free encyclopedia
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 Huidae Cho
 <p>
 <i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/scripts/g.mremove/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/g.mremove/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/g.mremove/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -15,7 +15,7 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="g.remove.html">g.remove</a></em><br>
+<em><a href="g.remove.html">g.remove</a></em><br>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/scripts/i.fusion.brovey/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/i.fusion.brovey/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/i.fusion.brovey/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>i.fusion.brovey</EM> performs a Brovey transformation using
+<em>i.fusion.brovey</em> performs a Brovey transformation using
 three multispectral and the panchromatic satellite image scene 
 channels. Three new channels are calculated according to the
 formula:
@@ -15,7 +15,7 @@
 The module's help text (above) suggests for LANDSAT-7, QuickBird and SPOT.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 The command changes temporarily to the high resolution of the
 panchromatic channels for creating the three output channels,
 then restores the previous region settings. The current
@@ -23,7 +23,7 @@
 channels may be combined with <em>d.rgb</em> or <em>r.composite</em>.
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Calculation of Brovey fusion map from North Carolina Landsat scene:
 
@@ -73,17 +73,17 @@
 Colors may be optionally optimized.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="i.his.rgb.html">i.his.rgb</A>,
-<A HREF="i.rgb.his.html">i.rgb.his</A>,
-<A HREF="d.rgb.html">d.rgb</A>,
-<A HREF="r.composite.html">r.composite</A>
-</EM>
+<em>
+<a href="i.his.rgb.html">i.his.rgb</a>,
+<a href="i.rgb.his.html">i.rgb.his</a>,
+<a href="d.rgb.html">d.rgb</a>,
+<a href="r.composite.html">r.composite</a>
+</em>
 
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <ul>
 <li>Original Brovey formula reference unknown, probably <br>
@@ -104,7 +104,7 @@
 </ul>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Markus Neteler, ITC-irst, Italy
 <p>

Modified: grass/branches/develbranch_6/scripts/i.image.mosaic/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/i.image.mosaic/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/i.image.mosaic/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -3,7 +3,7 @@
 <em>i.image.mosaic</em> mosaics several images or raster maps using the
 GRASS GIS map calculator, and extends the colormap to the range of all images.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 <em>
 <a href="r.patch.html">r.patch</a>,

Modified: grass/branches/develbranch_6/scripts/i.in.spotvgt/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/i.in.spotvgt/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/i.in.spotvgt/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -4,7 +4,7 @@
 After import the digital numbers (DN) are remapped to VEGETATION NDVI
 values and the NDVI color table is applied. The imported DN map is 
 removed after remapping.
-<P>
+<p>
 Apparently missing raster cells due to bad pixel quality are reconstructed
 by the SPOT operating team in the NDVI file. The differences between the
 filtered (-a flag) and raw NDVI map should be compared.
@@ -35,11 +35,11 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="r.in.gdal.html">r.in.gdal</a>,
-<a HREF="r.out.gdal.html">r.out.gdal</a>
+<a href="r.in.gdal.html">r.in.gdal</a>,
+<a href="r.out.gdal.html">r.out.gdal</a>
 </em>
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <a href="http://free.vgt.vito.be/">SPOT Vegetation (1km, global) NDVI data set server</a><br>
 <a href="http://www.vgt.vito.be/faqnew/index.html">SPOT Vegetation FAQ</a><br>

Modified: grass/branches/develbranch_6/scripts/i.landsat.rgb/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/i.landsat.rgb/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/i.landsat.rgb/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,56 +1,56 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>i.landsat.rgb</EM> auto-balances and enhances the color channels of a
+<em>i.landsat.rgb</em> auto-balances and enhances the color channels of a
 LANDSAT RGB image to provide a more natural color mixture. Only the color
 table of each image band is modified, the base data remains untouched.
-<P>
+<p>
 The module works by calculating a histogram for each color channel and 
 removing an adjustable amount of outliers from either end before recalibrating
 the color scale with <em>r.colors</em>.
-<P>
+<p>
 It will work with any 8-bit RGB imagery set and the script is easily modified
 to work with other datasets of greater band-depth.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-Depending on the image, it may or may not be advantageous to use the <B>-p</B>
+Depending on the image, it may or may not be advantageous to use the <b>-p</b>
 flag to preserve the relative color scaling. You will have to experiment
 with the different options to find a setting that works best for your
 particular imagery.
-<P>
+<p>
 The <b>strength</b> option should generally be set in the 90-99 range. The
 lower the number, the more saturated the image becomes. It represents the
 percentage cut-off for the top end of the color histogram curve. The lower
 end is fixed at 2% of the area under the curve.
-<P>
+<p>
 For quicker execution of this module on large images you can achieve largely
 similar results by switching to a coarser resolution before the running of
-the module (using <EM>g.region</EM>) and then back to the original resolution
+the module (using <em>g.region</em>) and then back to the original resolution
 afterwards.
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 <div class="code"><pre>
 i.landsat.rgb red=tm.3 green=tm.2 blue=tm.1
 </pre></div>
 
-<H2>TODO</H2>
+<h2>TODO</h2>
 
 The <b>strength</b> option requires further refinement.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.rgb.html">d.rgb</A></EM>,
-<EM><A HREF="g.region.html">g.region</A></EM>,
-<EM><A HREF="i.oif.html">i.oif</A></EM>,
-<EM><A HREF="r.colors.html">r.colors</A></EM>,
-<EM><A HREF="r.composite.html">r.composite</A></EM>,
-<EM><A HREF="r.univar.html">r.univar</A></EM>,
+<em><a href="d.rgb.html">d.rgb</a></em>,
+<em><a href="g.region.html">g.region</a></em>,
+<em><a href="i.oif.html">i.oif</a></em>,
+<em><a href="r.colors.html">r.colors</a></em>,
+<em><a href="r.composite.html">r.composite</a></em>,
+<em><a href="r.univar.html">r.univar</a></em>,
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 Markus Neteler<BR>
 M. Hamish Bowman, Dept. Marine Science, Otago University, New Zealand

Modified: grass/branches/develbranch_6/scripts/i.spectral/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/i.spectral/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/i.spectral/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -8,7 +8,7 @@
 This script needs gnuplot to be installed.
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 To analyze a time series of maps, run:
 
@@ -26,9 +26,9 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.what.rast.html">d.what.rast</a></em><br>
-<em><a HREF="d.where.html">d.where</a></em><br>
-<em><a HREF="r.what.html">r.what</a></em><br>
+<em><a href="d.what.rast.html">d.what.rast</a></em><br>
+<em><a href="d.where.html">d.where</a></em><br>
+<em><a href="r.what.html">r.what</a></em><br>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/scripts/i.tasscap/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/i.tasscap/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/i.tasscap/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>i.tasscap</EM> calculates Tasseled Cap (Kauth Thomas, TC) transformation
+<em>i.tasscap</em> calculates Tasseled Cap (Kauth Thomas, TC) transformation
 for LANDSAT-TM data (TM4, TM5, TM7).
 
 <!-- ok, but what is Tasseled Cap ? -->
@@ -15,7 +15,7 @@
 </ul>
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Calculation of TC maps from North Carolina Landsat scene:
 
@@ -69,7 +69,7 @@
 <br>
 
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <ul>
 <li>LANDSAT-4/LANDSAT-5: TC-factor changed to CRIST et al. 1986,
@@ -87,7 +87,7 @@
 </ul>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Markus Neteler, ITC-irst
 <p>

Modified: grass/branches/develbranch_6/scripts/m.proj/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/m.proj/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/m.proj/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2> 
+<h2>DESCRIPTION</h2> 
 
 This program allows a user to convert coordinates from one projection to
 another. Coordinates can be read from one file, converted, and results
@@ -10,44 +10,44 @@
 <em>cs2cs</em> utility. The <b>-i</b> or <b>-o</b> flags make the task
 especially easy for the common problem of converting to or from lat/long
 WGS84.
-<P>
+<p>
 <i>Note</i>: This program does not transform GRASS maps, it is designed to determine
 the equivalent coordinate values of an individual position or list of
 positions. Use <em>v.proj</em> or <em>r.proj</em> to reproject GRASS maps.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 <em>cs2cs</em> expects input data to formatted as "<tt>x y</tt>", so if working
 with latitude-longitude data be sure to send the <tt>x</tt> value first,
 i.e., "<tt>longitude&nbsp;latitude</tt>". Output data will be exported using
 the same convention.
-<P>
+<p>
 <em>cs2cs</em> will treat a third data column as a <tt>z</tt> value (elevation)
 and will modify the value accordingly. This usually translates into small but
 real differences in that data column.
-<P>
+<p>
 <em>cs2cs</em> does not expect the input stream to contain column headings,
 only numbers. If your data file has lines you wish to have passed through
 without being processed, they must start with the '<tt>#</tt>' character.
-<P>
+<p>
 If sending <em>m.proj</em> data from <tt>stdin</tt>, be aware that the data is
 first stored to a temporary file before being processed with <em>cs2cs</em>.
 It is therefore not advisable to send <em>m.proj</em> data from an open data
 stream. The module will stop listening for incoming data after 2 seconds of
 inactivity. You may use the projection parameters gleaned from <em>m.proj</em>'s
 verbose mode (<b>-v</b>) with <em>cs2cs</em> directly in this case.
-<P>
+<p>
 Custom projection parameters can be used via the <b>proj_in</b> and
 <b>proj_out</b> options. Full documentation of the projection parameter
 format may be found on the <tt><a href="http://proj.maptools.org">PROJ.4</a></tt>
 website. Using these options will fully override the default parameters the
 module would normally use.
-<P>
+<p>
 By using the <b>-v</b> verbose flag, the user can see exactly what projection
 parameters will be used in the conversion as well as some other informative
 messages.
-<P>
+<p>
 If output is to lat/long, it will be formatted using <tt>PROJ.4</tt>'s 
 Degree:Minute:Second (DMS) convention of <tt>DDDdMM'SSS.SS"H</tt>. This can be handy
 if you wish to quickly convert lat/long decimal degree data into its DMS
@@ -55,14 +55,14 @@
 Alternatively, to have <em>m.proj</em> output data in decimal degrees, use the
 <b>-d</b> flag. This flag can also be used with non-lat/long data to force a
 higher number of decimal places (the <em>cs2cs</em> default is 2).
-<P>
+<p>
 Lat/long output can be converted to GRASS's DMS convention (<tt>DDD:MM:SSS.SSSH</tt>)
 by piping the results of <em>m.proj</em> through the <em>sed</em> stream
 editor as follows.
 <div class="code"><pre>
 m.proj -o | sed -e 's/d/:/g' -e "s/'/:/g"  -e 's/"//g'
 </pre></div>
-<P>
+<p>
 The <em>m.proj</em> module is designed to work seamlessly with point data 
 exported from the GIS with <em>v.out.ascii</em>, as the following example
 shows.
@@ -71,7 +71,7 @@
 </pre></div>
 
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 To convert a WGS84 long/lat coordinate to the current map projection using
 the <b>-i</b> flag to set projection parameters automaticlly:
@@ -80,7 +80,7 @@
 2316541.70      5479193.51 1.23
 </pre></div>
 
-<P><BR>
+<p><BR>
 The same, but load points from a file named "<tt>waypoints.txt</tt>" and
 continue on to import the results into a GRASS vector points map in the
 current map projection:
@@ -90,14 +90,14 @@
 Here the standard UNIX <em>cut</em> tool is used to discard the <tt>z</tt>
 residual.
 
-<P><BR>
+<p><BR>
 To convert all coordinates from a vector points map in the current projection
 to WGS84 long/lat, with output in decimal form:
 <div class="code"><pre>
 v.out.ascii bugsites | m.proj -od
 </pre></div>
 
-<P><BR>
+<p><BR>
 To transform points from a UTM projection into the Gauss-Kr&uuml;ger Grid
 System, importing and exporting to files:
 
@@ -108,7 +108,7 @@
     +x_0=3500000.0" <b>input</b>=utm.coord.txt <b>output</b>=new.gk.coord.txt
 </pre></div>
 
-<P>
+<p>
 Projection parameters provided in the above case: "<tt>+proj</tt>" (projection
 type), "<tt>+name</tt>" (projection name), "<tt>+a</tt>" (ellipsoid: equatorial
 radius), "<tt>+es</tt>" (ellipsoid: eccentricity squared), "<tt>+zone</tt>"
@@ -120,31 +120,31 @@
 <a href="http://www.remotesensing.org/proj/"><tt>PROJ.4</tt> projection library</a>
 performs an inverse projection to latitude-longitude and then projects the 
 coordinate list to the target projection.
-<P><BR>
+<p><BR>
 <!-- HB 4/2006: I'm leaving this in from the GRASS 5 help page, but is it accurate? -->
 Datum conversions are automatically handled by the <tt>PROJ.4</tt> library if
 "<tt>+datum</tt>" setings are specified on <b>both</b> the input <b>and</b> output
 projections on the command line. The "<tt>+towgs84</tt>" parameter can be used to 
 define either 3 or 7 term datum transform coefficients, satisfying this requirement.
-<P>
+<p>
 If a datum is specified there is no need for the '<tt>+ellps=</tt>' or underlying
 parameters, '<tt>+a=</tt>', '<tt>+es=</tt>', etc.
 <p>
 <h3>Another custom parameter usage example:</h3>
 
 <div class="code"><pre>
-m.proj <B>proj_in</B>="+proj=tmerc +datum=ire65 +lat_0=53.5 +lon_0=-8 +x_0=200000 \
-    +y_0=250000 +k=1.000035" <B>proj_out</B>="+proj=ll +datum=wgs84" <B>input</B>=wpt.txt
+m.proj <b>proj_in</b>="+proj=tmerc +datum=ire65 +lat_0=53.5 +lon_0=-8 +x_0=200000 \
+    +y_0=250000 +k=1.000035" <b>proj_out</b>="+proj=ll +datum=wgs84" <b>input</b>=wpt.txt
 </pre></div>
 
 or without datum transformation:
 
 <div class="code"><pre>
-m.proj <B>proj_in</B>="+proj=tmerc +ellps=modif_airy +lat_0=53.5 +lon_0=-8 +x_0=200000 \
-    +y_0=250000 +k=1.000035" <B>proj_out</B>="+proj=ll +datum=wgs84" <B>input</B>=wpt.txt
+m.proj <b>proj_in</b>="+proj=tmerc +ellps=modif_airy +lat_0=53.5 +lon_0=-8 +x_0=200000 \
+    +y_0=250000 +k=1.000035" <b>proj_out</b>="+proj=ll +datum=wgs84" <b>input</b>=wpt.txt
 </pre></div>
 
-<P>
+<p>
 In this example no datum transformation will take place as a datum was not
 specified for the input projection. The datum specified for the output
 projection will thus be silently ignored and may be left out; all that is
@@ -156,30 +156,30 @@
 <tt><a href="http://proj.maptools.org">PROJ.4</a></tt> <em>cs2cs</em> program.
 
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 [1] Evenden, G.I.  (1990) <a href="http://proj.maptools.org/">Cartographic projection procedures for
 the UNIX environment - a user's manual.</a>  USGS Open-File Report 90-284 (OF90-284.pdf)
 See also there: Interim Report and 2nd Interim Report on Release 4, Evenden 1994).
-<P>
+<p>
 [2] <tt><a href="http://proj.maptools.org">PROJ.4</a></tt> Cartographic Projection Library
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="v.proj.html">v.proj</A>,
-<A HREF="r.proj.html">r.proj</A>,
-<A HREF="g.proj.html">g.proj</A>,
-<A HREF="g.setproj.html">g.setproj</A>,
-<A HREF="i.rectify.html">i.rectify</A>,
-<!-- <A HREF="i.rectify3.html">i.rectify3</A> -->
-<A HREF="v.in.ascii.html">v.in.ascii</A>,
-<A HREF="v.out.ascii.html">v.out.ascii</A>
-</EM>
+<em>
+<a href="v.proj.html">v.proj</a>,
+<a href="r.proj.html">r.proj</a>,
+<a href="g.proj.html">g.proj</a>,
+<a href="g.setproj.html">g.setproj</a>,
+<a href="i.rectify.html">i.rectify</a>,
+<!-- <a href="i.rectify3.html">i.rectify3</a> -->
+<a href="v.in.ascii.html">v.in.ascii</a>,
+<a href="v.out.ascii.html">v.out.ascii</a>
+</em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 M. Hamish Bowman, Dept. Marine Science, Otago University, New Zealand<BR>
 Functionality inspired by the <em>m.proj</em> and <em>m.proj2</em> modules for

Modified: grass/branches/develbranch_6/scripts/r.fillnulls/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/r.fillnulls/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/r.fillnulls/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -73,7 +73,7 @@
 </em>
 
 <h2>REFERENCES</h2>
-<P> Mitas, L., Mitasova, H., 1999, Spatial Interpolation. In: P.Longley,
+<p> Mitas, L., Mitasova, H., 1999, Spatial Interpolation. In: P.Longley,
 M.F. Goodchild, D.J. Maguire, D.W.Rhind (Eds.), Geographical Information
 Systems: Principles, Techniques, Management and Applications, Wiley,
 pp.481-492
@@ -93,7 +93,7 @@
 II. Application to Terrain Modeling and Surface Geometry Analysis,
 <i>Mathematical Geology</i> 25, 657-667.
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 r.fillnulls: Markus Neteler, University of Hannover<p>
 and authors of v.surf.rst<br>
 Improvement by Hamish Bowman, NZ

Modified: grass/branches/develbranch_6/scripts/r.in.aster/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/r.in.aster/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/r.in.aster/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -8,7 +8,7 @@
   the <b>type</b> of processing used, the image <b>band</b> to import, and an 
   <b>output</b> GRASS raster map name. </p>
 <p>The <b>type</b> paremeter can take values of L1A, L1B, or DEM. </p>
-<p>The <B>band</B> parameter can take values of 1, 2, 3n, 3b, 4-14</p>
+<p>The <b>band</b> parameter can take values of 1, 2, 3n, 3b, 4-14</p>
 
 
 <h2>NOTES</h2>

Modified: grass/branches/develbranch_6/scripts/r.in.wms/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/r.in.wms/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/r.in.wms/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -72,7 +72,7 @@
 </pre></div>
 
 Downloads real number feet elevation from OnEarth to cover the current
-region. Uses <B>-o</B> for opaque to get smaller download. Using a named
+region. Uses <b>-o</b> for opaque to get smaller download. Using a named
 region lets us resume later easily.
 
 <div class="code"><pre>
@@ -115,9 +115,9 @@
 region.
 
 
-<H2>REQUIRED PROGRAMS</H2>
+<h2>REQUIRED PROGRAMS</h2>
 
-<EM>r.in.wms</EM> requires the following programs to work:
+<em>r.in.wms</em> requires the following programs to work:
 
 <ul>
 <li>wget: An http download program, or
@@ -131,7 +131,7 @@
 </ul>
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 <em>
 <a href="r.tileset.html">r.tileset</a>,
 <a href="r.in.gdal.html">r.in.gdal</a>,
@@ -141,7 +141,7 @@
 <a href="v.in.wfs.html">v.in.wfs</a>
 </em>
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 Soeren Gebbert, Jachym Cepicky, and Cedric Shock
 

Modified: grass/branches/develbranch_6/scripts/r.mapcalculator/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/r.mapcalculator/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/r.mapcalculator/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -14,7 +14,7 @@
 
 <h2>SEE ALSO</h2>
 
-<em><A HREF="r.mapcalc.html">r.mapcalc</A></em>
+<em><a href="r.mapcalc.html">r.mapcalc</a></em>
 
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/scripts/r.mask/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/r.mask/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/r.mask/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -86,8 +86,8 @@
 
 <h2>SEE ALSO</h2>
 <em>
-<a HREF="g.region.html">g.region</a>,
-<a HREF="r.mapcalc.html">r.mapcalc</a>,
+<a href="g.region.html">g.region</a>,
+<a href="r.mapcalc.html">r.mapcalc</a>,
 <a href="r.reclass.html">r.reclass</a>,
 <a href="g.remove.html">g.remove</a>,
 <a href="g.rename.html">g.rename</a>

Modified: grass/branches/develbranch_6/scripts/r.out.gdal/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/r.out.gdal/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/r.out.gdal/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,10 +1,10 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-WARNING: <B>This module is superseded and will be removed in future versions of GRASS.
-Use the much faster <em><A HREF="r.out.gdal.html">r.out.gdal</a></em> instead.</b>
+WARNING: <b>This module is superseded and will be removed in future versions of GRASS.
+Use the much faster <em><a href="r.out.gdal.html">r.out.gdal</a></em> instead.</b>
 
-<EM>r.out.gdal.sh</EM> outputs GRASS raster maps into various GIS formats
+<em>r.out.gdal.sh</em> outputs GRASS raster maps into various GIS formats
 as supported by GDAL. This script is based on 'gdal_translate',
 it's parameters are similar to those of 
 '<a href="http://www.gdal.org/gdal_utilities.html">gdal_translate</a>'.
@@ -17,11 +17,11 @@
 The <em>createopt</em> may be used to create TFW or World files ("TFW=YES",
 "WORLDFILE=ON").
 
-<H2>SUPPORTED FORMATS</H2>
+<h2>SUPPORTED FORMATS</h2>
 
 The set of <a href="http://www.gdal.org/formats_list.html">supported
-formats</a> written by <EM>r.out.gdal.sh</EM> depend on the
-local GDAL installation. Available may be (incomplete list):<P>
+formats</a> written by <em>r.out.gdal.sh</em> depend on the
+local GDAL installation. Available may be (incomplete list):<p>
 
 <pre>
   AAIGrid: Arc/Info ASCII Grid
@@ -49,7 +49,7 @@
   XPM: X11 PixMap Format
 </pre>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 When writing out GeoTIFF format for users of ESRI software or ImageMagick,
 the band interleaving should be switched to pixel interleaving using
@@ -70,7 +70,7 @@
 <em><a href="http://en.wikipedia.org/wiki/C_syntax#Typical_boundaries_of_primitive_integral_types">Typical boundaries of primitive integral types</a></em>
 for details.
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Export of the map 'elevation.dem' from the Spearfish data set:
 
@@ -78,19 +78,19 @@
 r.out.gdal.sh elevation.dem format=GTiff type=Int16 output=elev_dem.tif
 </pre></div>
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
  
 <a href="http://www.gdal.org/">GDAL library</a>
 <p>
 <a href="http://grass.gdf-hannover.de/wiki/Compile_and_install_GRASS_and_QGIS_with_GDAL/OGR_Plugin">Compile and install GRASS and QGIS with GDAL/OGR Plugin</a>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="r.out.arc.html">r.out.arc</A></EM>,
-<EM><A HREF="r.out.ascii.html">r.out.ascii</A></EM>,
-<EM><A HREF="r.out.tiff.html">r.out.tiff</A></EM>
+<em><a href="r.out.arc.html">r.out.arc</a></em>,
+<em><a href="r.out.ascii.html">r.out.ascii</a></em>,
+<em><a href="r.out.tiff.html">r.out.tiff</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Markus Neteler, ITC-irst, Italy
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/scripts/r.out.xyz/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/r.out.xyz/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/r.out.xyz/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -29,7 +29,7 @@
 
 <h2>TODO</h2>
 
-Implement this script as a <EM>r.out.ascii</EM> option?
+Implement this script as a <em>r.out.ascii</em> option?
 
 
 <h2>SEE ALSO</h2>

Modified: grass/branches/develbranch_6/scripts/r.reclass.area/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/r.reclass.area/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/r.reclass.area/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -17,9 +17,9 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="r.reclass.html">r.reclass</a></em><br>
-<em><a HREF="r.clump.html">r.clump</a></em><br>
-<em><a HREF="r.stats.html">r.stats</a></em><br>
+<em><a href="r.reclass.html">r.reclass</a></em><br>
+<em><a href="r.clump.html">r.clump</a></em><br>
+<em><a href="r.stats.html">r.stats</a></em><br>
 
 <h2>AUTHORS</h2>
 

Modified: grass/branches/develbranch_6/scripts/r.shaded.relief/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/r.shaded.relief/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/r.shaded.relief/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -78,9 +78,9 @@
 and Jim Westervelt, U.S. Army Construction Engineering Research Laboratory
 (March/1991) (available from the GRASS web site).
 
-<P>
+<p>
 <!-- RGB version not ported to GRASS 6:
-  <EM><A HREF="shade.clr.sh.html">shade.clr.sh</A></EM><BR>
+  <em><a href="shade.clr.sh.html">shade.clr.sh</a></em><BR>
  -->
 <em>
 <a href="d.his.html">d.his</a>,

Modified: grass/branches/develbranch_6/scripts/r.univar.sh/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/r.univar.sh/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/r.univar.sh/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,9 +1,9 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-WARNING: <B>This module is superseded and will be removed in future versions of GRASS.
-Use the much faster <em><A HREF="r.univar.html">r.univar</a></em> instead.</b>
-<P>
-<EM>r.univar</EM> calculates univariate statistics of a raster map.  This
+WARNING: <b>This module is superseded and will be removed in future versions of GRASS.
+Use the much faster <em><a href="r.univar.html">r.univar</a></em> instead.</b>
+<p>
+<em>r.univar</em> calculates univariate statistics of a raster map.  This
 includes the number of cells counted, mininum and maximum cell values,
 range, arithmetic mean, variance, standard deviation and coefficient of
 variation.
@@ -12,14 +12,14 @@
 and 90th percentile.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="r.univar.html">r.univar</A></EM>
-<EM><A HREF="r.stats.html">r.stats</A></EM>
+<em><a href="r.univar.html">r.univar</a></em>
+<em><a href="r.stats.html">r.stats</a></em>
 
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Markus Neteler, University of Hannover
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/scripts/r3.mapcalculator/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/r3.mapcalculator/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/r3.mapcalculator/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -14,7 +14,7 @@
 
 <h2>SEE ALSO</h2>
 
-<em><A HREF="r3.mapcalc.html">r3.mapcalc</A></em>
+<em><a href="r3.mapcalc.html">r3.mapcalc</a></em>
 
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/scripts/v.centroids/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.centroids/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.centroids/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -18,7 +18,7 @@
 example, represent a road between two parcels of land. In this case it
 is entirely appropriate for the boundary to contain category information.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 <em>
 <a href="v.category.html">v.category</a>

Modified: grass/branches/develbranch_6/scripts/v.colors/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.colors/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.colors/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -94,12 +94,12 @@
 
 <em>
 <a href="d.vect.html">d.vect</a> -z,
-<a href="r.colors.html">r.colors</A>,
-<a href="r.colors.stddev.html">r.colors.stddev</A>,
-<a href="r.what.color.html">r.what.color</A>,
-<a href="v.db.addcol">v.db.addcol</A>,
-<a href="v.db.select.html">v.db.select</A>,
-<a href="db.execute.html">db.execute</A>
+<a href="r.colors.html">r.colors</a>,
+<a href="r.colors.stddev.html">r.colors.stddev</a>,
+<a href="r.what.color.html">r.what.color</a>,
+<a href="v.db.addcol">v.db.addcol</a>,
+<a href="v.db.select.html">v.db.select</a>,
+<a href="db.execute.html">db.execute</a>
 </em>
 
 <p>

Modified: grass/branches/develbranch_6/scripts/v.db.dropcol/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.db.dropcol/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.db.dropcol/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -21,15 +21,15 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="db.droptable.html">db.droptable</a></em>,
-<em><a HREF="db.execute.html">db.execute</a></em>,
-<em><a HREF="v.db.addcol.html">v.db.addcol</a></em>,
-<em><a HREF="v.db.addtable.html">v.db.addtable</a></em>,
-<em><a HREF="v.db.connect.html">v.db.connect</a></em>,
-<em><a HREF="v.db.droprow.html">v.db.droprow</a></em>,
-<em><a HREF="v.db.droptable.html">v.db.droptable</a></em>,
-<em><a HREF="v.db.select.html">v.db.select</a></em>,
-<em><a HREF="v.db.update.html">v.db.update</a></em>
+<em><a href="db.droptable.html">db.droptable</a></em>,
+<em><a href="db.execute.html">db.execute</a></em>,
+<em><a href="v.db.addcol.html">v.db.addcol</a></em>,
+<em><a href="v.db.addtable.html">v.db.addtable</a></em>,
+<em><a href="v.db.connect.html">v.db.connect</a></em>,
+<em><a href="v.db.droprow.html">v.db.droprow</a></em>,
+<em><a href="v.db.droptable.html">v.db.droptable</a></em>,
+<em><a href="v.db.select.html">v.db.select</a></em>,
+<em><a href="v.db.update.html">v.db.update</a></em>
 
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/scripts/v.db.join/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.db.join/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.db.join/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -67,9 +67,9 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="db.in.ogr.html">db.in.ogr</a>,
-<a HREF="v.db.update.html">v.db.update</a><br>
+<a href="db.execute.html">db.execute</a>,
+<a href="db.in.ogr.html">db.in.ogr</a>,
+<a href="v.db.update.html">v.db.update</a><br>
 <a href="sql.html">GRASS SQL interface</a>
 </em>
 

Modified: grass/branches/develbranch_6/scripts/v.db.renamecol/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.db.renamecol/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.db.renamecol/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -33,14 +33,14 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="db.execute.html">db.execute</a></em>,
-<em><a HREF="v.db.addcol.html">v.db.addcol</a></em>,
-<em><a HREF="v.db.addtable.html">v.db.addtable</a></em>,
-<em><a HREF="v.db.connect.html">v.db.connect</a></em>,
-<em><a HREF="v.db.dropcol.html">v.db.dropcol</a></em>,
-<em><a HREF="v.db.droptable.html">v.db.droptable</a></em>,
-<em><a HREF="v.db.select.html">v.db.select</a></em>,
-<em><a HREF="v.db.update.html">v.db.update</a></em>
+<em><a href="db.execute.html">db.execute</a></em>,
+<em><a href="v.db.addcol.html">v.db.addcol</a></em>,
+<em><a href="v.db.addtable.html">v.db.addtable</a></em>,
+<em><a href="v.db.connect.html">v.db.connect</a></em>,
+<em><a href="v.db.dropcol.html">v.db.dropcol</a></em>,
+<em><a href="v.db.droptable.html">v.db.droptable</a></em>,
+<em><a href="v.db.select.html">v.db.select</a></em>,
+<em><a href="v.db.update.html">v.db.update</a></em>
 
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/scripts/v.db.update/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.db.update/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.db.update/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -53,13 +53,13 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="v.db.addcolumn.html">v.db.addcolumn</a>,
-<a HREF="v.db.addtable.html">v.db.addtable</a>,
-<a HREF="v.db.connect.html">v.db.connect</a>,
-<a HREF="v.db.droptable.html">v.db.droptable</a>,
-<a HREF="v.db.join.html">v.db.join</a>,
-<a HREF="v.db.select.html">v.db.select</a><br>
+<a href="db.execute.html">db.execute</a>,
+<a href="v.db.addcolumn.html">v.db.addcolumn</a>,
+<a href="v.db.addtable.html">v.db.addtable</a>,
+<a href="v.db.connect.html">v.db.connect</a>,
+<a href="v.db.droptable.html">v.db.droptable</a>,
+<a href="v.db.join.html">v.db.join</a>,
+<a href="v.db.select.html">v.db.select</a><br>
 <a href="sql.html">GRASS SQL interface</a>
 </em>
 

Modified: grass/branches/develbranch_6/scripts/v.in.e00/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.in.e00/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.in.e00/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -9,14 +9,14 @@
 filename.e02 etc. The user must take care to download them all, the scripts
 automatically detects the presence of such multiple files.
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <a href="http://avce00.maptools.org">AVCE00 library</a> (providing 'avcimport' and 'e00conv')<br>
 <a href="http://www.gdal.org/ogr/">OGR vector library</a>
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="v.in.ogr.html">v.in.ogr</a></em>
+<em><a href="v.in.ogr.html">v.in.ogr</a></em>
 
 <h2>AUTHORS</h2>
 

Modified: grass/branches/develbranch_6/scripts/v.in.garmin/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.in.garmin/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.in.garmin/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -46,7 +46,7 @@
 <a href="v.in.ascii.html">v.in.ascii</a>,
 <a href="v.in.gpsbabel.html">v.in.gpsbabel</a>,
 <a href="v.db.connect.html">v.db.connect</a>,
-<a href="v.patch.html">v.patch</A>
+<a href="v.patch.html">v.patch</a>
 </em>
 
 <p>

Modified: grass/branches/develbranch_6/scripts/v.in.geonames/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.in.geonames/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.in.geonames/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -44,8 +44,8 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.connect.html">db.connect</a>,
-<a HREF="v.select.html">v.select</a>
+<a href="db.connect.html">db.connect</a>,
+<a href="v.select.html">v.select</a>
 </em>
 
 <h2>REFERENCES</h2>

Modified: grass/branches/develbranch_6/scripts/v.in.gns/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.in.gns/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.in.gns/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -23,8 +23,8 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.connect.html">db.connect</a>,
-<a HREF="v.select.html">v.select</a>
+<a href="db.connect.html">db.connect</a>,
+<a href="v.select.html">v.select</a>
 </em>
 
 <h2>REFERENCES</h2>

Modified: grass/branches/develbranch_6/scripts/v.in.gpsbabel/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.in.gpsbabel/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.in.gpsbabel/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -79,7 +79,7 @@
 </em>
 
 <a href="http://www.gpsbabel.org">gpsbabel</a> from gpsbabel.org<br>
-cs2cs from <A HREF="http://trac.osgeo.org/proj/">PROJ.4</a>
+cs2cs from <a href="http://trac.osgeo.org/proj/">PROJ.4</a>
 
 <h2>AUTHORS</h2>
 Claudio Porta and Lucio Davide Spano, students of Computer Science at

Modified: grass/branches/develbranch_6/scripts/v.in.mapgen/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.in.mapgen/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.in.mapgen/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -20,7 +20,7 @@
 </pre></div>
 <p>
 The user can import 3D lines from Matlab by exporting a 3 column array and
-using the <B>-z</B> flag.
+using the <b>-z</b> flag.
 
 
 <h2>SEE ALSO</h2>

Modified: grass/branches/develbranch_6/scripts/v.in.wfs/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.in.wfs/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.in.wfs/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -24,7 +24,7 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="v.in.ogr.html">v.in.ogr</a></em>
+<em><a href="v.in.ogr.html">v.in.ogr</a></em>
 
 <h2>AUTHORS</h2>
 

Modified: grass/branches/develbranch_6/scripts/v.out.gpsbabel/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.out.gpsbabel/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.out.gpsbabel/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,18 +1,18 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.out.gpsbabel</EM> allows the user to export waypoint, route, and track
+<em>v.out.gpsbabel</em> allows the user to export waypoint, route, and track
 data from a vector map into a locally connected GPS receiver or as a file in
 many common GPS data formats. Translation is done via the 
-<EM><A HREF="http://www.gpsbabel.org">GpsBabel</a></EM> program. 
+<em><a href="http://www.gpsbabel.org">GpsBabel</a></em> program. 
 
-<P>
+<p>
 Do not use as a primary means of navigation.
 This program is distributed in the hope that it will be useful,
 but WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 GNU General Public License (GPL) for more details.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 <em>v.out.gpsbabel</em> automatically reprojects data from the 
 projection settings of the current location to Lat/Lon WGS84.
@@ -26,7 +26,7 @@
 section of the record. Not all fields names are used with all feature
 types (e.g. DOP fix error is not meaningful for route lines). You can
 use the <em>v.db.renamecol</em> module to rename columns.
-<P>
+<p>
 These are the standard GPX data fields known to OGR:
 <div class="code"><pre>
 ageofdgpsdata
@@ -59,7 +59,7 @@
 </pre></div>
 
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 <h3>GPX Export</h3>
 
@@ -80,25 +80,25 @@
 </pre></div>
 
 
-<H2>SEE ALSO</H2>
-<EM>
-<A HREF="m.proj.html">m.proj</A><BR>
-<A HREF="v.in.ascii.html">v.in.ascii</A><BR>
-<A HREF="v.out.ascii.html">v.out.ascii</A><BR>
-<A HREF="v.in.garmin.html">v.in.garmin</A><BR>
-<A HREF="v.in.gpsbabel.html">v.in.gpsbabel</A><BR>
-<A HREF="v.db.renamecol.html">v.db.renamecol</A><BR>
-<A HREF="v.extract.html">v.extract</A>
-</EM>
+<h2>SEE ALSO</h2>
+<em>
+<a href="m.proj.html">m.proj</a><BR>
+<a href="v.in.ascii.html">v.in.ascii</a><BR>
+<a href="v.out.ascii.html">v.out.ascii</a><BR>
+<a href="v.in.garmin.html">v.in.garmin</a><BR>
+<a href="v.in.gpsbabel.html">v.in.gpsbabel</a><BR>
+<a href="v.db.renamecol.html">v.db.renamecol</a><BR>
+<a href="v.extract.html">v.extract</a>
+</em>
 <BR>
 <BR>
 
-<A HREF="http://www.gpsbabel.org">GpsBabel.org</a><BR>
-The <A HREF="http://www.gdal.org/ogr/drv_gpx.html">GDAL/OGR GPX format page</a><BR>
-cs2cs from <A HREF="http://proj.osgeo.org">PROJ.4</a><BR>
+<a href="http://www.gpsbabel.org">GpsBabel.org</a><BR>
+The <a href="http://www.gdal.org/ogr/drv_gpx.html">GDAL/OGR GPX format page</a><BR>
+cs2cs from <a href="http://proj.osgeo.org">PROJ.4</a><BR>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 Hamish Bowman, Dunedin New Zealand
 
 <p>

Modified: grass/branches/develbranch_6/scripts/v.rast.stats/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.rast.stats/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.rast.stats/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -20,7 +20,7 @@
 progress.
 <p>
 The script stops if a (prefixed) upload column is already present in the
-vector map attribute table, unless otherwise instructed with the <B>-c</B>
+vector map attribute table, unless otherwise instructed with the <b>-c</b>
 continue flag. The column prefix will be separated from the statistic name
 with an underscore. For example with a prefix of "<tt>elev</tt>" the sum
 column will be named <tt>elev_sum</tt>.
@@ -34,7 +34,7 @@
 The script changes temporarily to the resolution of the given raster map.
 <p>
 <!-- r.univar limitation -->
-Large amounts of system memory can be used when the <B>-e</B> extended
+Large amounts of system memory can be used when the <b>-e</b> extended
 statistics flag is used with a very large region setting. If the region
 is too large the module should display memory allocation errors.
 Basic statistics can be calculated using any size input region.

Modified: grass/branches/develbranch_6/scripts/v.report/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.report/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.report/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<h2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <em>v.report</em> generates a table showing the area present in 
 each of the categories of a user-selected data layer.
@@ -29,9 +29,9 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.in.region.html">v.in.region</a>,
-<a HREF="v.to.db.html">v.to.db</a>,
-<a HREF="v.overlay.html">v.overlay</a>
+<a href="v.in.region.html">v.in.region</a>,
+<a href="v.to.db.html">v.to.db</a>,
+<a href="v.overlay.html">v.overlay</a>
 </em>
 
 

Modified: grass/branches/develbranch_6/scripts/v.univar.sh/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.univar.sh/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.univar.sh/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
 Calculates basic univariate statistics for numeric
@@ -9,15 +9,15 @@
 This script could be replaced by an updated <em>v.univar</em>.
 <p>
 
-<EM>(GRASS Shell Script)</EM>
+<em>(GRASS Shell Script)</em>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 If the database and driver are not specified, the module will use the default
 values set in <em>db.connect</em>.
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 <div class="code"><pre>
 g.region rast=elevation.10m -p
@@ -29,16 +29,16 @@
 v.univar.sh samples col=heights
 </pre></div>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="r.univar.html">r.univar</A>,
-<A HREF="r.univar.sh.html">r.univar.sh</A>, 
-<A HREF="v.univar.html">v.univar,</A>,
-<A HREF="db.select.html">db.select</A>,
-<A HREF="d.vect.thematic.html">d.vect.thematic</A></EM>
+<em>
+<a href="r.univar.html">r.univar</a>,
+<a href="r.univar.sh.html">r.univar.sh</a>, 
+<a href="v.univar.html">v.univar,</a>,
+<a href="db.select.html">db.select</a>,
+<a href="d.vect.thematic.html">d.vect.thematic</a></em>
 
-<P> AUTHORS
+<p> AUTHORS
 v.univar.sh: Michael Barton, Arizona State University
 <p>
 and authors of <em>r.univar.sh</em>

Modified: grass/branches/develbranch_6/scripts/v.what.vect/description.html
===================================================================
--- grass/branches/develbranch_6/scripts/v.what.vect/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/scripts/v.what.vect/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -12,11 +12,11 @@
 Use dmax parameter to control query distance tolerance (how far points/centroids
 can be from <b>qvector</b> features). For more options, use
 <em>v.distance</em> instead.
-<P>
+<p>
 In case of a multipoint input <b>vector</b> map, with several points having the
 same category number, it can happen, that the query result is NULL, if the same
 category number falls into different <b>qvector</b> polygons.
-<P>
+<p>
 When transferring attributes from a point map to a polygon map, usually <b>dmax</b>
 has to be larger than zero (determined by distance between query points and
 polygon centroids).
@@ -35,7 +35,7 @@
 # verification:
 v.db.select myhospitals
 </pre></div>
-<P>
+<p>
 
 In this example, city names, population data and more from
 <a href="http://download.geonames.org/export/dump/">Geonames.org country files</a> are
@@ -59,11 +59,11 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.db.addcolumn.html">v.db.addcolumn</a>,
-<a HREF="v.db.select.html">v.db.select</a>,
-<a HREF="v.distance.html">v.distance</a>,
-<a HREF="v.rast.stats.html">v.rast.stats</a>,
-<a HREF="v.what.rast.html">v.what.rast</a>
+<a href="v.db.addcolumn.html">v.db.addcolumn</a>,
+<a href="v.db.select.html">v.db.select</a>,
+<a href="v.distance.html">v.distance</a>,
+<a href="v.rast.stats.html">v.rast.stats</a>,
+<a href="v.what.rast.html">v.what.rast</a>
 </em>
 
 

Modified: grass/branches/develbranch_6/sites/s.in.ascii/description.html
===================================================================
--- grass/branches/develbranch_6/sites/s.in.ascii/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/sites/s.in.ascii/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,25 +1,25 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 
-<EM>s.in.ascii</EM> converts an ASCII listing of site
+<em>s.in.ascii</em> converts an ASCII listing of site
 locations and category labels into GRASS vector format.
 
-<P>
+<p>
 
 Input can be entered via standard input or from the file
-<B>input=</B><EM>name</EM>. Each line of input should
+<b>input=</b><em>name</em>. Each line of input should
 contain the easting, northing, and either the category value
 or category label associated with a site.  The
-<B>fs=</B><EM>name</EM> option (where <EM>name</EM> is
+<b>fs=</b><em>name</em> option (where <em>name</em> is
 either a character, a space, or a tab) can be used to
 specify the use of a particular field separator between
 these three input fields. This is useful when input is
 obtained from other programs (see NOTES, below).  Output is
-stored in the vector map <B>output=</B><EM>name</EM>.
+stored in the vector map <b>output=</b><em>name</em>.
 
-<P>
+<p>
 
-The GRASS program <EM><a href="s.out.ascii.html">s.out.ascii</a></EM>
+The GRASS program <em><a href="s.out.ascii.html">s.out.ascii</a></em>
 can be used to perform the reverse function, converting a file in GRASS
 vector sites format into an ASCII listing of eastings, northings, and 
 category labels associated with site locations.
@@ -28,75 +28,75 @@
 <H3>Parameters:</H3>
 
 <DL>
-<DT><B>output=</B><EM>name</EM>
+<DT><b>output=</b><em>name</em>
 <DD>Name of the new GRASS site list file to be output. 
-<DT><B>input=</B><EM>name</EM>
+<DT><b>input=</b><em>name</em>
 <DD>Name of an existing ASCII file containing site locations and labels. 
-<DT><B>d=</B><EM>value</EM>
+<DT><b>d=</b><em>value</em>
 <DD>number of dimensions (default=2)
-<DT><B>fs=</B><EM>character|space|tab</EM>
+<DT><b>fs=</b><em>character|space|tab</em>
 <DD>The field separator separating the easting, northing, and category label 
-    in each line of the <EM>input</EM> file. 
+    in each line of the <em>input</em> file. 
     The field separator can be a character, a space, or a tab. 
 <BR>
     Default: space 
-<DT><B>date=</B><EM>timestamp</EM>[/<EM>timestamp</EM>]
+<DT><b>date=</b><em>timestamp</em>[/<em>timestamp</em>]
 <DD>String specifying timestamp or timestamp range.
 </DL>
 
-<P>
+<p>
 
-<EM>s.in.ascii</EM> can be run either non-interactively or
+<em>s.in.ascii</em> can be run either non-interactively or
 interactively.  The program will be run non-interactively
 if the user specifies a name to be assigned to the
-<B>sites</B> file output, the name of an existing ASCII
-file containing <B>input</B>, and (optionally) a field
-separator <B>fs</B> appearing in the <B>input</B> file.
+<b>sites</b> file output, the name of an existing ASCII
+file containing <b>input</b>, and (optionally) a field
+separator <b>fs</b> appearing in the <b>input</b> file.
 
-<P>
+<p>
 
-Alternately, the user can simply type <B>s.in.ascii</B> on
+Alternately, the user can simply type <b>s.in.ascii</b> on
 the command line, without program arguments. In this case,
 the user will be prompted for parameter values using the
 standard GRASS parser interface described in the manual
-entry for <EM><a href="parser.html">parser</a></EM>. If 
-the user does not specify the name of an <B>input</B> 
+entry for <em><a href="parser.html">parser</a></em>. If 
+the user does not specify the name of an <b>input</b> 
 file containing site locations and category attributes,
 these should be entered to the program via standard input. 
-The <B>d</B> parameter allows the user to specify that more 
+The <b>d</b> parameter allows the user to specify that more 
 than 2 dimensions will be imported. Otherwise the third (or 
-further) column in the <B>input</B> file will be treated as an attribute.
+further) column in the <b>input</b> file will be treated as an attribute.
 
-<P>To define a <B>date</B> (timestamp), several date strings are accepted.
-Please see <EM><A HREF="r.timestamp.html">r.timestamp</A></EM> for details.
+<p>To define a <b>date</b> (timestamp), several date strings are accepted.
+Please see <em><a href="r.timestamp.html">r.timestamp</a></em> for details.
 
 <p>
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-<B>Importing from other GRASS programs</B>
+<b>Importing from other GRASS programs</b>
 <p>
 Other GRASS programs can be used to produce output in a
-format suitable for input to <EM>s.in.ascii</EM>. For
+format suitable for input to <em>s.in.ascii</em>. For
 example, the user might pipe output produced by
-<EM><a href="d.where.html">d.where</a></EM> into 
-<EM>s.in.ascii</EM> to create a site
-list file called <EM>my.sites</EM> containing site
+<em><a href="d.where.html">d.where</a></em> into 
+<em>s.in.ascii</em> to create a site
+list file called <em>my.sites</em> containing site
 locations pointed to with the mouse, as illustrated below.
 In this example it is unnecessary to specify the field
-separator used in the input, since <EM>d.where</EM> output
+separator used in the input, since <em>d.where</em> output
 separates the easting and northing values with spaces, and
 spaces are the default field separator assumed by
-<EM>s.in.ascii</EM>.
-<P>
+<em>s.in.ascii</em>.
+<p>
 <DL>
-<DD><B>d.where</B> | <B>s.in.ascii output=</B>my.sites
+<DD><b>d.where</b> | <b>s.in.ascii output=</b>my.sites
 </DL>
 <p>
-<B>Importing from a spreadsheet</B>
+<b>Importing from a spreadsheet</b>
 <p>
 Data may be imported from many spreadsheet programs by saving the spreadsheet
 as a comma separated variable (.csv) text file, and then using 
-the "<b>fs=</b><EM>,</EM>" command line parameter with <EM>s.in.ascii</EM>.
+the "<b>fs=</b><em>,</em>" command line parameter with <em>s.in.ascii</em>.
 <p>
 <b>Importing latitude/longitude data</b>
 <p>
@@ -131,15 +131,15 @@
 This data has three dimensions (assume easting, northing, and
 elevation),  five string attributes, and one decimal attribute.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.vect.html">d.sites</A></EM>,
-<EM><A HREF="d.what.vect.html">d.what.vect</A></EM>,
-<EM><A HREF="d.where.html">d.where</A></EM>,
-<EM><A HREF="r.timestamp.html">r.timestamp</A></EM>,
-<EM><A HREF="s.out.ascii.html">s.out.ascii</A></EM>
+<em><a href="d.vect.html">d.sites</a></em>,
+<em><a href="d.what.vect.html">d.what.vect</a></em>,
+<em><a href="d.where.html">d.where</a></em>,
+<em><a href="r.timestamp.html">r.timestamp</a></em>,
+<em><a href="s.out.ascii.html">s.out.ascii</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro,  
 U.S. Army Construction Engineering 

Modified: grass/branches/develbranch_6/sites/s.out.ascii/description.html
===================================================================
--- grass/branches/develbranch_6/sites/s.out.ascii/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/sites/s.out.ascii/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,43 +1,43 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>s.out.ascii</EM> converts an existing site list file
-(<B>input=</B><EM>name</EM>) into an ASCII listing of site
+<em>s.out.ascii</em> converts an existing site list file
+(<b>input=</b><em>name</em>) into an ASCII listing of site
 locations and (optionally) their category labels, in a
 format suitable for input to other program). 
 
-<P>
+<p>
 
 Each line of output consists of the easting, northing, and
-category label for a site listed in the named <B>vector points</B> (sites)
-file.  The <B>fs=</B><EM>name</EM> option (where
-<EM>name</EM> is either a character, a space, or a tab) can
+category label for a site listed in the named <b>vector points</b> (sites)
+file.  The <b>fs=</b><em>name</em> option (where
+<em>name</em> is either a character, a space, or a tab) can
 be used to place a particular field separator between these
 three output fields. This is useful when output is to be
-manipulated by other programs, like <EM>awk</EM> or
-<EM>sed</EM>.
+manipulated by other programs, like <em>awk</em> or
+<em>sed</em>.
 
-<P>
+<p>
 
-The GRASS program <EM>s.in.ascii</EM> can be used to
+The GRASS program <em>s.in.ascii</em> can be used to
 perform the reverse function, converting a UNIX file
 containing eastings, northings, and category labels
 associated with site locations into GRASS site list file
 format.
 
-<H2>OPTIONS</H2>
+<h2>OPTIONS</h2>
 
 <H3>Flags:</H3>
 
 <DL>
-<DT><B>-a</B>
-<DD>Output all sites found in the named <B>vector points</B>
+<DT><b>-a</b>
+<DD>Output all sites found in the named <b>vector points</b>
 file, rather than limiting output to sites falling within
 the current geographic region.
 
-<DT><B>-d</B>
+<DT><b>-d</b>
 <DD>Include site descriptions (category labels) in the output. 
 
-<DT><B>-i</B>
+<DT><b>-i</b>
 <DD>Include site attribute identifiers in the output
 
 </DL>
@@ -46,11 +46,11 @@
 
 <DL>
 
-<DT><B>input=</B><EM>name</EM>
+<DT><b>input=</b><em>name</em>
 
 <DD>Name of an existing site list file. 
 
-<DT><B>fs=</B>character|space|tab
+<DT><b>fs=</b>character|space|tab
 
 <DD>The field separator to be placed between the easting,
 northing, and (optionally) category label on each line of
@@ -61,47 +61,47 @@
 Default: space 
 </DL>
 
-<EM>s.out.ascii</EM> can be run either non-interactively or
+<em>s.out.ascii</em> can be run either non-interactively or
 interactively.  The program will be run non-interactively
 if the user specifies the name of an existing site list
-file and (optionally) a value for <B>fs</B>, using the form
+file and (optionally) a value for <b>fs</b>, using the form
 
-<P>
+<p>
 <DL>
 <DD>
-<B>s.out.ascii</B> 
-[<B>-adi</B>] 
-<B>input=</B><EM>name</EM> 
-[<B>fs=</B>character|space|tab] 
+<b>s.out.ascii</b> 
+[<b>-adi</b>] 
+<b>input=</b><em>name</em> 
+[<b>fs=</b>character|space|tab] 
 </DL>
 
 
-where <EM>name</EM> is the name of an existing site list
+where <em>name</em> is the name of an existing site list
 file to be converted to a brief ASCII listing, and
-<B>fs</B> is the field separator to be placed between
-output fields. The user can also the <B>-a</B> and
-<B>-d</B> options to use all sites in the named
-<B>sites</B> file and to include site descriptions in the
+<b>fs</b> is the field separator to be placed between
+output fields. The user can also the <b>-a</b> and
+<b>-d</b> options to use all sites in the named
+<b>sites</b> file and to include site descriptions in the
 output.
 
-<P>
+<p>
 
-Alternately, the user can simply type <B>s.out.ascii</B> on
+Alternately, the user can simply type <b>s.out.ascii</b> on
 the command line, without program arguments. In this case,
 the user will be prompted for parameter values using the
 standard GRASS 
 
-<A HREF="parser.html">parser</A>
+<a href="parser.html">parser</a>
 
 interface.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 To output GRASS data in x,y,z ASCII style, the s.out.ascii may be used:
 <p>
 <DL>
 <DD>
-<B>s.out.ascii -d input=</B>sitesmap
+<b>s.out.ascii -d input=</b>sitesmap
 </DL>
 Resulting to:
 
@@ -118,32 +118,32 @@
 subsequently as described above.
 
 <p>
-The output from <EM>s.out.ascii</EM> may be placed into a
+The output from <em>s.out.ascii</em> may be placed into a
 file by using the UNIX redirection mechanism; e.g.:
 
-<P>
+<p>
 <DL>
 <DD>
-<B>s.out.ascii input=</B>archsites &gt; out.file
+<b>s.out.ascii input=</b>archsites &gt; out.file
 </DL>
 
-<EM>s.out.ascii</EM> output may also be redirected into
+<em>s.out.ascii</em> output may also be redirected into
 other programs; e.g.:
 
-<P>
+<p>
 <DL>
 <DD>
-<B>s.out.ascii input=</B>archsites | d.points <B>color=</B>red <B>size=</B>10 <B>type=</B>diamond
+<b>s.out.ascii input=</b>archsites | d.points <b>color=</b>red <b>size=</b>10 <b>type=</b>diamond
 </DL>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.points.html">d.points</A></EM><br>
-<EM><A HREF="d.vect.html">d.vect</A></EM><br>
-<EM><A HREF="s.in.ascii.html">s.in.ascii</A></EM><br>
-<EM><A HREF="r.to.vect.html">r.to.vect</A></EM>
+<em><a href="d.points.html">d.points</a></em><br>
+<em><a href="d.vect.html">d.vect</a></em><br>
+<em><a href="s.in.ascii.html">s.in.ascii</a></em><br>
+<em><a href="r.to.vect.html">r.to.vect</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro,  
 U.S. Army Construction Engineering 

Modified: grass/branches/develbranch_6/vector/v.buffer/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.buffer/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.buffer/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -9,7 +9,7 @@
 
 Attributes are not transferred due to potential buffer overlap, which
 cannot be resolved automatically.
-<P>
+<p>
 The input vector must be reasonably clean: lines must not intersect
 themselves. It is recommended to clean the input vector first with
 <em>v.clean tool=snap,break,rmdupl</em> and then create buffers. The 
@@ -57,11 +57,11 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="r.buffer.html">r.buffer</a>,
-<a HREF="v.extract.html">v.extract</a>,
-<a HREF="v.type.html">v.type</a>,
-<a HREF="v.patch.html">v.patch</a>,
-<a HREF="v.db.connect.html">v.db.connect</a>
+<a href="r.buffer.html">r.buffer</a>,
+<a href="v.extract.html">v.extract</a>,
+<a href="v.type.html">v.type</a>,
+<a href="v.patch.html">v.patch</a>,
+<a href="v.db.connect.html">v.db.connect</a>
 </em>
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/vector/v.buffer2/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.buffer2/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.buffer2/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -47,11 +47,11 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="r.buffer.html">r.buffer</a>,
-<a HREF="v.extract.html">v.extract</a>,
-<a HREF="v.type.html">v.type</a>,
-<a HREF="v.patch.html">v.patch</a>,
-<a HREF="v.db.connect.html">v.db.connect</a>
+<a href="r.buffer.html">r.buffer</a>,
+<a href="v.extract.html">v.extract</a>,
+<a href="v.type.html">v.type</a>,
+<a href="v.patch.html">v.patch</a>,
+<a href="v.db.connect.html">v.db.connect</a>
 </em>
 
 

Modified: grass/branches/develbranch_6/vector/v.build/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.build/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.build/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -23,7 +23,7 @@
 v.build map=geology at PERMANENT
 </pre></div>
 
-<P>
+<p>
 In case of errors, the user can optionally generate an <em>error</em>
 vector map containing the erroneous vectors for later inspection.
 

Modified: grass/branches/develbranch_6/vector/v.category/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.category/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.category/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -89,7 +89,7 @@
 </pre></div>
 
 Results can be tested
-using <em><a HREF="d.what.vect.html">d.what.vect</a></em>.
+using <em><a href="d.what.vect.html">d.what.vect</a></em>.
 
 <h3>Print vector categories of given layer</h3>
 

Modified: grass/branches/develbranch_6/vector/v.class/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.class/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.class/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <em>v.class</em> classifies vector attribute data into classes, for example for thematic mapping. Classification can be on a column or on an expression including several columns, all in the table linked to the vector map. The user indicates the number of classes desired and the algorithm to use for classification.
 
@@ -6,19 +6,19 @@
 
 It can be used to pipe class breaks into thematic mapping modules such as d.thematic.area (see example below);
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-<P>The <em>equal interval</em> algorithm simply divides the range max-min by the number of breaks to determine the interval between class breaks.</P>
+<p>The <em>equal interval</em> algorithm simply divides the range max-min by the number of breaks to determine the interval between class breaks.</P>
 
-<P>The <em>quantiles</em> algorithm creates classes which all contain approximately the same number of observations.</P>
+<p>The <em>quantiles</em> algorithm creates classes which all contain approximately the same number of observations.</P>
 
-<P>The <em>standard deviations</em> algorithm creates class breaks which are a combination of the mean +/- the standard deviation. It calculates a scale factor (<1) by which to multiply the standard deviation in order for all of the class breaks to fall into the range min-max of the data values.</P>
+<p>The <em>standard deviations</em> algorithm creates class breaks which are a combination of the mean +/- the standard deviation. It calculates a scale factor (<1) by which to multiply the standard deviation in order for all of the class breaks to fall into the range min-max of the data values.</P>
 
-<P>The <em>equiprobabilites</em> algorithm creates classes that would be equiprobable if the distribution was normal. If some of the class breaks fall outside the range min-max of the data values, the algorithm prints a warning and reduces the number of breaks, but the probabilities used are those of the number of breaks asked for.</P>
+<p>The <em>equiprobabilites</em> algorithm creates classes that would be equiprobable if the distribution was normal. If some of the class breaks fall outside the range min-max of the data values, the algorithm prints a warning and reduces the number of breaks, but the probabilities used are those of the number of breaks asked for.</P>
 
-<P>The <em>discont</em> algorithm systematically searches discontinuities in the slope of the cumulated frequencies curve, by approximating this curve through straight line segments whose vertices define the class breaks. The first approximation is a straight line which links the two end nodes of the curve. This line is then replaced by a two-segmented polyline whose central node is the point on the curve which is farthest from the preceding straight line. The point on the curve furthest from this new polyline is then chosen as a new node to create break up one of the two preceding segments, and so forth. The problem of the difference in terms of units between the two axes is solved by rescaling both amplitudes to an interval between 0 and 1. In the original algorithm, the process is stopped when the difference between the slopes of the two new segments is no longer significant (alpha = 0.05). As the slope is the ratio between the frequency and the amplitude of the correspon
 ding interval, i.e. its density, this effectively tests whether the frequencies of the two newly proposed classes are different from those obtained by simply distributing the sum of their frequencies amongst them in proportion to the class amplitudes. In the GRASS implementation, the algorithm continues, but a warning is printed.</P>
+<p>The <em>discont</em> algorithm systematically searches discontinuities in the slope of the cumulated frequencies curve, by approximating this curve through straight line segments whose vertices define the class breaks. The first approximation is a straight line which links the two end nodes of the curve. This line is then replaced by a two-segmented polyline whose central node is the point on the curve which is farthest from the preceding straight line. The point on the curve furthest from this new polyline is then chosen as a new node to create break up one of the two preceding segments, and so forth. The problem of the difference in terms of units between the two axes is solved by rescaling both amplitudes to an interval between 0 and 1. In the original algorithm, the process is stopped when the difference between the slopes of the two new segments is no longer significant (alpha = 0.05). As the slope is the ratio between the frequency and the amplitude of the correspon
 ding interval, i.e. its density, this effectively tests whether the frequencies of the two newly proposed classes are different from those obtained by simply distributing the sum of their frequencies amongst them in proportion to the class amplitudes. In the GRASS implementation, the algorithm continues, but a warning is printed.</P>
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Classify column pop of map communes into 5 classes using quantiles:
 
@@ -38,13 +38,13 @@
 d.thematic.area -l map=communes2 data=pop/area breaks=`v.class -g map=communes2 column=pop/area algo=std nbcla=5` colors=0:0:255,50:100:255,255:100:50,255:0:0,156:0:0
 </pre></div>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="v.univar.html">v.univar</A></EM>
-<EM><A HREF="d.thematic.area.html">d.area.thematic</A></EM>
+<em><a href="v.univar.html">v.univar</a></em>
+<em><a href="d.thematic.area.html">d.area.thematic</a></em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Moritz Lennert
 

Modified: grass/branches/develbranch_6/vector/v.clean/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.clean/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.clean/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -180,7 +180,7 @@
 
 <h2>NOTES</h2>
 
-The user does <b>not</b> have to run <em><a HREF="v.build.html">v.build</a></em>
+The user does <b>not</b> have to run <em><a href="v.build.html">v.build</a></em>
 on the <em>output</em> vector, unless the <em>-b</em> flag was used. The
 <em>-b</em> flag affects <b>only</b> the <em>output</em> vector - 
 topology is always built for <em>error</em> vector.
@@ -195,7 +195,7 @@
 
 <h3>Cleaning OGR imported data (Simple Feature data)</h3>
 
-The import of areas with <em><a HREF="v.in.ogr.html">v.in.ogr</a> -c</em>
+The import of areas with <em><a href="v.in.ogr.html">v.in.ogr</a> -c</em>
 (no cleaning) requires a subsequent run of <em>v.clean</em> to update 
 the map to a topologically valid structure (removal of duplicate 
 collinear lines etc). The tools used for that are <em>bpol</em> and 
@@ -262,10 +262,10 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.info.html">v.info</a>,
-<a HREF="v.build.html">v.build</a>,
-<a HREF="v.digit.html">v.digit</a>,
-<a HREF="v.edit.html">v.edit</a>
+<a href="v.info.html">v.info</a>,
+<a href="v.build.html">v.build</a>,
+<a href="v.digit.html">v.digit</a>,
+<a href="v.edit.html">v.edit</a>
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.convert/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.convert/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.convert/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -7,15 +7,15 @@
 Vector maps from 5.0/5.3/5.4 and 5.7/6.x do not interfere. They are stored in different 
 directories, so you can use the same names. Old vector maps can be listed with
 <em>g.list oldvect</em>.
-<P>
+<p>
 If you need to convert back from 5.7/6.x into the 5.0/5.3/5.4 vector format,
 use <em>v.out.ogr</em> (to SHAPE format) and then <em>v.in.shape</em>
 in the old GRASS program.
 Alternatively use "<em>v.out.ascii -o</em>" and <em>v.in.ascii</em>.
-<P>
+<p>
 As this GRASS version uses SQL for attribute management, there are
 some <a href=sql.html>SQL restrictings concerning the file names</a>.
-<P>
+<p>
 Missing centroids can be added with <em>v.category</em>.
 
 <h2>EXAMPLE</h2>
@@ -25,12 +25,12 @@
 
 <h2>SEE ALSO</h2>
 
-<A HREF="g.list.html">g.list</A>,
-<A HREF="v.category.html">v.category</A>,
-<A HREF="v.convert.all.html">v.convert.all</A>,
-<A HREF="v.out.ascii.html">v.out.ascii</A>,
-<A HREF="v.in.ascii.html">v.in.ascii</A>,
-<A HREF="v.out.ogr.html">v.out.ogr</A>
+<a href="g.list.html">g.list</a>,
+<a href="v.category.html">v.category</a>,
+<a href="v.convert.all.html">v.convert.all</a>,
+<a href="v.out.ascii.html">v.out.ascii</a>,
+<a href="v.in.ascii.html">v.in.ascii</a>,
+<a href="v.out.ogr.html">v.out.ogr</a>
 
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/vector/v.db.connect/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.db.connect/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.db.connect/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -7,7 +7,7 @@
 <h2>NOTE</h2>
 
 If parameters for database connection are already set with 
-<a HREF="db.connect.html">db.connect</a>, they are taken as default values and
+<a href="db.connect.html">db.connect</a>, they are taken as default values and
 do not need to be spcified each time.
 
 <p>
@@ -17,10 +17,10 @@
 
 <p>
 <b>Attention:</b> Removing a vector map will also delete all tables
-linked to it! If you use <a HREF="db.connect.html">v.db.connect </a>to
+linked to it! If you use <a href="db.connect.html">v.db.connect </a>to
 link further tables to your map, it is advisable to make a copy from
 those tables first and connect the copied tables to the vector map
-(see also <a HREF="v.overlay.html">v.overlay</a>).
+(see also <a href="v.overlay.html">v.overlay</a>).
 
 <h2>EXAMPLE</h2>
 
@@ -147,7 +147,7 @@
 </pre></div>
 
 An alternative is to create a "view" of only ID, x, y [,z] columns and
-to use <a HREF="v.in.db.html">v.in.db</a> on this view, then connect the original
+to use <a href="v.in.db.html">v.in.db</a> on this view, then connect the original
 table to the geometry. This will be faster if the original table
 is very large.
 
@@ -190,16 +190,16 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.connect.html">db.connect</a>,
-<a HREF="db.copy.html">db.copy</a>,
-<a HREF="db.tables.html">db.tables</a>,
-<a HREF="v.db.addtable.html">v.db.addtable</a>,
-<a HREF="v.db.droptable.html">v.db.droptable</a>,
-<a HREF="v.db.addcol.html">v.db.addcol</a>,
-<a HREF="v.db.dropcol.html">v.db.dropcol</a>,
-<a HREF="v.external.html">v.external</a>,
-<a HREF="v.in.db.html">v.in.db</a>,
-<a HREF="v.overlay.html">v.overlay</a>
+<a href="db.connect.html">db.connect</a>,
+<a href="db.copy.html">db.copy</a>,
+<a href="db.tables.html">db.tables</a>,
+<a href="v.db.addtable.html">v.db.addtable</a>,
+<a href="v.db.droptable.html">v.db.droptable</a>,
+<a href="v.db.addcol.html">v.db.addcol</a>,
+<a href="v.db.dropcol.html">v.db.dropcol</a>,
+<a href="v.external.html">v.external</a>,
+<a href="v.in.db.html">v.in.db</a>,
+<a href="v.overlay.html">v.overlay</a>
 </em>
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/vector/v.db.select/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.db.select/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.db.select/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -42,7 +42,7 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="db.select.html">db.select</a></em>
+<em><a href="db.select.html">db.select</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.delaunay2/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.delaunay2/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.delaunay2/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,8 +1,8 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.delaunay</EM> uses an existing vector points map (<B>input</B>)
-to create a Delaunay triangulation vector map (<B>output</B>).
-<P>
+<em>v.delaunay</em> uses an existing vector points map (<b>input</b>)
+to create a Delaunay triangulation vector map (<b>output</b>).
+<p>
 
 <BR>
 Delaunay triangulation and Voronoi diagram example:
@@ -17,7 +17,7 @@
 </center>
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Commands used with the Spearfish dataset to create the above figure.
 <div class="code"><pre>
@@ -43,22 +43,22 @@
 </pre></div>
 
 
-<H2>REFERENCES</H2>
-<EM>Leonid Guibas and Jorge Stolfi, (1985). 
+<h2>REFERENCES</h2>
+<em>Leonid Guibas and Jorge Stolfi, (1985). 
 Primitives for the 
 Manipulation of General Subdivisions and the Computation of
 Voronoi Diagrams, ACM Transactions on Graphics, Vol 4, No. 2, 
 April 1985, Pages 74-123
-</EM>
+</em>
 
-<H2>SEE ALSO</H2>
-<EM>
-<A HREF="v.voronoi.html">v.voronoi</A>, 
-<A HREF="v.hull.html">v.hull</A>
-</EM>
+<h2>SEE ALSO</h2>
+<em>
+<a href="v.voronoi.html">v.voronoi</a>, 
+<a href="v.hull.html">v.hull</a>
+</em>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 Martin Pavlovsky, Google Summer of Code 2008, Student<br>
 Paul Kelly, Mentor<br>
 Based on "dct" by Geoff Leach, Department of Computer Science, RMIT.<br>

Modified: grass/branches/develbranch_6/vector/v.distance/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.distance/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.distance/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,17 +1,17 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.distance</EM> finds the nearest element in vector map
+<em>v.distance</em> finds the nearest element in vector map
 (<em>to</em>) for elements in vector map (<em>from</em>). Various
 information about the vectors' relationships (distance, category, etc.) may be uploaded
 to the attribute table attached to the first vector map, or printed to
 'stdout'.  A new vector map may be created where lines connecting
 nearest points on features are written. <em>dmin</em> and/or <em>dmax</em> can be used to limit the search radius.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 If a nearest feature does not have a category, the attribute column is updated
 to <em>null</em>.  This is true also for areas, which means for example,
-that if a point is in an island (area WITHOUT category), <EM>v.distance</EM> 
+that if a point is in an island (area WITHOUT category), <em>v.distance</em> 
 does not search for the nearest area WITH category; the island is identified 
 as the nearest and category updated to null.
 <p>
@@ -21,14 +21,14 @@
 and <em>to_along</em>) in meters not in degrees calculated as geodesic
 distances on a sphere.
 
-<h2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 <H3>Find nearest lines</H3>
 
-Find <EM>nearest lines</EM> in vector map <B>ln</B> for points from
-vector map <B>pnt</B> within the given threshold and write related
-line categories to column <B>linecat</B> in an attribute table attached
-to vector map <B>pnt</B>:
+Find <em>nearest lines</em> in vector map <b>ln</b> for points from
+vector map <b>pnt</b> within the given threshold and write related
+line categories to column <b>linecat</b> in an attribute table attached
+to vector map <b>pnt</b>:
 
 <div class="code"><pre>
 v.distance from=pnt to=ln upload=cat column=linecat
@@ -36,10 +36,10 @@
 
 <H3>Find nearest area</H3>
 
-For each point from vector map <B>pnt</B>, find the <EM>nearest area</EM>
-from map <B>ar</B> within the given threshold and write the related
-area categories to column <B>areacat</B> in an attribute table attached
-to vector map <B>pnt</B> (in the case that a point falls into a polygon area,
+For each point from vector map <b>pnt</b>, find the <em>nearest area</em>
+from map <b>ar</b> within the given threshold and write the related
+area categories to column <b>areacat</b> in an attribute table attached
+to vector map <b>pnt</b> (in the case that a point falls into a polygon area,
 the distance is zero):
 
 <div class="code"><pre>
@@ -48,8 +48,8 @@
 
 <H3>Create a new vector map</H3>
 
-Create a new vector map which contains <EM>lines connecting nearest
-features</EM> of maps <B>pnt</B> and map <B>ln</B>. The resulting
+Create a new vector map which contains <em>lines connecting nearest
+features</em> of maps <b>pnt</b> and map <b>ln</b>. The resulting
 vector map can be used for example to connect points to a network as
 needed for network analysis:
 
@@ -59,7 +59,7 @@
 
 <H3>Query information</H3>
 
-Query information from selected point(s). <EM>v.distance</EM> takes
+Query information from selected point(s). <em>v.distance</em> takes
 points from a vector map as input instead of stdin. A new vector map
 with query points has to be created before the map can be analysed.
 <p>
@@ -82,10 +82,10 @@
 points not falling into any area, the category of the nearest area is
 recorded.
 <br>
-For each point from vector map <B>pnt</B>, find the <EM>area</EM> from
-vector map <B>ar</B> in which the individual point falls, and
-write the related area categories to column <B>areacat</B> into
-the attribute table attached to vector map <B>pnt</B>:
+For each point from vector map <b>pnt</b>, find the <em>area</em> from
+vector map <b>ar</b> in which the individual point falls, and
+write the related area categories to column <b>areacat</b> into
+the attribute table attached to vector map <b>pnt</b>:
 
 <div class="code"><pre>
 v.distance from=pnt to=ar dmax=0 upload=cat column=areacat
@@ -128,19 +128,19 @@
 v.distance -pa from=archsites to=archsites upload=dist col=dist
 </pre></div>
 
-Note: Matrix-like output is enabled only for flag <EM>-a</EM> and one
+Note: Matrix-like output is enabled only for flag <em>-a</em> and one
 given upload option.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
+<em>
 <a href="r.distance.html">r.distance</a>,
 <a href="v.db.addcol.html">v.db.addcol</a>,
 <a href="v.what.vect.html">v.what.vect</a>
-</EM>
+</em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Janne Soimasuo 1994, University of Joensuu, Faculty of Forestry, Finland<BR>
 Cmd line coordinates support: Markus Neteler, ITC-irst, Trento, Italy<BR>

Modified: grass/branches/develbranch_6/vector/v.edit/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.edit/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.edit/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -414,12 +414,12 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.in.ascii.html">v.in.ascii</a>,
-<a HREF="v.info.html">v.info</a>,
-<a HREF="v.build.html">v.build</a>,
-<a HREF="v.clean.html">v.clean</a>,
-<a HREF="v.digit.html">v.digit</a>,
-<a HREF="v.extrude.html">v.extrude</a>
+<a href="v.in.ascii.html">v.in.ascii</a>,
+<a href="v.info.html">v.info</a>,
+<a href="v.build.html">v.build</a>,
+<a href="v.clean.html">v.clean</a>,
+<a href="v.digit.html">v.digit</a>,
+<a href="v.extrude.html">v.extrude</a>
 </em>
 
 <p>

Modified: grass/branches/develbranch_6/vector/v.external/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.external/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.external/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -5,7 +5,7 @@
 OGR (Simple Features Library) is part of the 
 <a href="http://www.gdal.org">GDAL</a> library, so you need to
 install GDAL to use <em>v.external</em> and external OGR layers.
-<P>
+<p>
 
 <h3>Supported OGR Vector Formats</h3>
 
@@ -21,38 +21,38 @@
 
 <h2>EXAMPLES</h2>
 
-<B>SHAPE files</B><BR>
+<b>SHAPE files</b><BR>
 <div class="code"><pre>
 v.external dsn=/home/user/shape_data layer=test_shape output=grass_map 
 </pre></div>
 
-<P>
-<B>MapInfo files</B><BR>
+<p>
+<b>MapInfo files</b><BR>
 <div class="code"><pre>
 v.external dsn=./ layer=mapinfo_test output=grass_map
 </pre></div>
-<P>
-<B>SDTS files</B> (you have to select the CATD file)<BR>
+<p>
+<b>SDTS files</b> (you have to select the CATD file)<BR>
 <div class="code"><pre>
 v.external dsn=CITXCATD.DDF output=cities
 </pre></div>
 
-<P>
-<B>TIGER files</B><BR>
+<p>
+<b>TIGER files</b><BR>
 <div class="code"><pre>
 v.external dsn=input/2000/56015/ layer=CompleteChain,PIP output=t56015_all
 </pre></div>
 
-<P>
-<B>PostGIS maps (area example)</B><BR>
+<p>
+<b>PostGIS maps (area example)</b><BR>
 <div class="code"><pre>
 v.external dsn="PG:host=localhost user=postgres dbname=postgis" layer=polymap \
 output=polygons
 </pre></div>
 
-<P>
+<p>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The simple feature data model used by OGR is very different from 
 the topological format used by GRASS. Instead of true topology, 
@@ -62,10 +62,10 @@
 can produce wrong results with input layers created by <em>v.external</em>. 
 <p>
 
-See <a HREF="v.db.connect.html">v.db.connect</a> for an example of
+See <a href="v.db.connect.html">v.db.connect</a> for an example of
 maintaining attributes in external DBMS in also writeable mode.
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <a href="http://www.gdal.org/ogr/">OGR vector library</a>
 <br>
@@ -75,11 +75,11 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="v.clean.html">v.clean</a></em>,
-<em><a HREF="v.db.connect.html">v.db.connect</a></em>,
-<em><a HREF="v.in.db.html">v.in.db</a></em>,
-<em><a HREF="v.in.ogr.html">v.in.ogr</a></em>,
-<em><a HREF="v.out.ogr.html">v.out.ogr</a></em>
+<em><a href="v.clean.html">v.clean</a></em>,
+<em><a href="v.db.connect.html">v.db.connect</a></em>,
+<em><a href="v.in.db.html">v.in.db</a></em>,
+<em><a href="v.in.ogr.html">v.in.ogr</a></em>,
+<em><a href="v.out.ogr.html">v.out.ogr</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.extract/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.extract/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.extract/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -17,7 +17,7 @@
 Only features with a category number will be extracted. So if you want to 
 extract boundaries (which are usually without category, as that information
 is normally held in the area's centroid) you must first use 
-<em><a HREF="v.category.html">v.category</a></em> to add them.
+<em><a href="v.category.html">v.category</a></em> to add them.
 
 <h2>EXAMPLES</h2>
 
@@ -122,10 +122,10 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.category.html">v.category</a>,
-<a HREF="v.dissolve.html">v.dissolve</a>,
-<a HREF="v.reclass.html">v.reclass</a>,
-<a HREF="sql.html">GRASS SQL interface</a>
+<a href="v.category.html">v.category</a>,
+<a href="v.dissolve.html">v.dissolve</a>,
+<a href="v.reclass.html">v.reclass</a>,
+<a href="sql.html">GRASS SQL interface</a>
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.generalize/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.generalize/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.generalize/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -53,7 +53,7 @@
 <li> <i>Douglas-Peucker</i> - "Quicksort" of line simplification, the 
      most widely used algorithm. Input parameters: <b>input</b>, 
      <b>threshold</b>. For more information, see: <br>
-     <A href="http://geometryalgorithms.com/Archive/algorithm_0205/algorithm_0205.htm">http://geometryalgorithms.com/Archive/algorithm_0205/algorithm_0205.htm</a>.</li>
+     <a href="http://geometryalgorithms.com/Archive/algorithm_0205/algorithm_0205.htm">http://geometryalgorithms.com/Archive/algorithm_0205/algorithm_0205.htm</a>.</li>
 <li> <i>Douglas-Peucker Reduction Algorithm</i> is essentially the same 
      algorithm as the algorithm above, the difference being that it takes 
      an additional <b>reduction</b> parameter which denotes the percentage 
@@ -63,7 +63,7 @@
 <li> <i>Lang</i> - Another standard algorithm. Input parameters: 
      <b>input</b>, <b>threshold</b>, <b>look_ahead</b>. 
      For an excellent description, see:  <br>
-     <A href="http://www.sli.unimelb.edu.au/gisweb/LGmodule/LGLangVisualisation.htm">http://www.sli.unimelb.edu.au/gisweb/LGmodule/LGLangVisualisation.htm</a>.</li>
+     <a href="http://www.sli.unimelb.edu.au/gisweb/LGmodule/LGLangVisualisation.htm">http://www.sli.unimelb.edu.au/gisweb/LGmodule/LGLangVisualisation.htm</a>.</li>
 <li> <i>Vertex Reduction</i> - Simplest among the algorithms. Input 
      parameters: <b>input</b>, <b>threshold</b>.
      Given a line, this algorithm removes the points of this line which 
@@ -75,7 +75,7 @@
      <b>threshold</b>. 
      This algorithm quite reasonably preserves the global characteristics 
      of the lines. For more information, see:  <br> 
-     <A href="http://www.ifp.uni-stuttgart.de/lehre/vorlesungen/GIS1/Lernmodule/Lg/LG_de_6.html">http://www.ifp.uni-stuttgart.de/lehre/vorlesungen/GIS1/Lernmodule/Lg/LG_de_6.html</a> (german).</li>
+     <a href="http://www.ifp.uni-stuttgart.de/lehre/vorlesungen/GIS1/Lernmodule/Lg/LG_de_6.html">http://www.ifp.uni-stuttgart.de/lehre/vorlesungen/GIS1/Lernmodule/Lg/LG_de_6.html</a> (german).</li>
 </ul>
 
 <i>Douglas-Peucker</i> and <i>Douglas-Peucker Reduction Algorithm</i> 

Modified: grass/branches/develbranch_6/vector/v.in.ascii/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.in.ascii/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.in.ascii/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -12,7 +12,7 @@
 </ul>
 
 <p>
-The <a HREF="v.out.ascii.html">v.out.ascii</a> GRASS module performs
+The <a href="v.out.ascii.html">v.out.ascii</a> GRASS module performs
 the function of <em>v.in.ascii</em> in reverse; i.e., it converts
 vector maps in binary format to ASCII format. These two companion
 programs are useful both for importing and exporting vector maps
@@ -163,7 +163,7 @@
 <b>skip</b> parameter should be used. These skipped header lines will be
 written to the map's history file for later reference (read with
 <tt>v.info&nbsp;-h</tt>). The skip option only works in <tt>points</tt> mode.
-<P>
+<p>
 Any line starting with the hash character ('<tt>#</tt>') will be treated as
 a comment and skipped completely if located in the main data file. If located
 in the header, as defined by the <b>skip</b> parameter, it will be treated as
@@ -314,7 +314,7 @@
 593549.3|4925500.7|442.6|mineralni pramen|mineral spring
 600375.7|4925235.6|342.2|kozi stezka|goat path
 </pre></div>
-<P>
+<p>
 Import into GRASS:
 <div class="code"><pre>
 #As the 'cat' option is set to 0 by default, an extra column 'cat'
@@ -355,21 +355,21 @@
 
 <h2>REFERENCES</h2>
 
-<a HREF="sql.html">SQL command notes</a> for creating databases
+<a href="sql.html">SQL command notes</a> for creating databases
 
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.execute.html">db.execute</a>,
-<a HREF="r.in.ascii.html">r.in.ascii</a>,
-<a HREF="r.in.xyz.html">r.in.xyz</a>,
-<a HREF="v.build.html">v.build</a>,
-<a HREF="v.build.polylines.html">v.build.polylines</a>,
-<a HREF="v.centroids.html">v.centroids</a>,
-<a HREF="v.clean.html">v.clean</a>,
-<a HREF="v.db.connect.html">v.db.connect</a>,
-<a HREF="v.info.html">v.info</a>,
-<a HREF="v.out.ascii.html">v.out.ascii</a>,
+<a href="db.execute.html">db.execute</a>,
+<a href="r.in.ascii.html">r.in.ascii</a>,
+<a href="r.in.xyz.html">r.in.xyz</a>,
+<a href="v.build.html">v.build</a>,
+<a href="v.build.polylines.html">v.build.polylines</a>,
+<a href="v.centroids.html">v.centroids</a>,
+<a href="v.clean.html">v.clean</a>,
+<a href="v.db.connect.html">v.db.connect</a>,
+<a href="v.info.html">v.info</a>,
+<a href="v.out.ascii.html">v.out.ascii</a>,
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.in.db/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.in.db/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.in.db/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,9 +1,9 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <em>v.in.db</em> 
 creates new vector (points) map from database table containing coordinates. 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 <h3>1) Creating a map from PostgreSQL table:</h3>
 
@@ -11,7 +11,7 @@
 v.in.db driver=pg database="host=myserver.itc.it,dbname=mydb" \
         table=pat_stazioni x=east y=north z=quota key=id output=pat_stazioni
 </pre></div>
-<P>
+<p>
 If an ID column is not not present in the PostgreSQL table,
 a new column should be added. See <a href="grass-pg.html">pg</a> driver
 page for detail.
@@ -23,7 +23,7 @@
 v.in.db driver=pg database="host=myserver.itc.it,dbname=mydb" \
         table=station x="x(geom)" y="y(geom)" z="z(geom)" key=id out=meteostations
 </pre></div>
-<P>
+<p>
 If an ID column is not not present in the PostgreSQL table,
 a new column should be added. See <a href="grass-pg.html">pg</a> driver 
 page for detail.
@@ -40,7 +40,7 @@
 v.info dtmpoints
 v.info -c dtmpoints
 </pre></div>
-<P>
+<p>
 If an ID column is missing in the DBF file, it has to be added beforehand, e.g. with OpenOffice.
 Alternatively, import the table with <em>db.in.ogr</em> into GRASS and then with <em>v.in.db</em>
 from the imported table (<em>db.in.ogr</em> optionally adds an unique ID column).
@@ -57,15 +57,15 @@
 v.info dtmpoints
 v.info -c dtmpoints
 </pre></div>
-<P>
+<p>
 If an ID column is missing in the table, it has to be added beforehand with 'sqlite3' or
 <em>db.execute</em>.
 
 
 <h3>5) Import of a points table (x, y, z) from DBF file to vector points map for selected points only:</h3>
-<P>
+<p>
 The user can import only selected vector points from a table using the <em>where</em> parameter
-(see above for general DBF handling):<P>
+(see above for general DBF handling):<p>
 <div class="code"><pre>
 v.in.db driver=dbf  database=/home/user/tables/ table=pointsfile x=x y=y z=z \
         key=idcol out=dtmpoints where="x NOT NULL and z > 100"
@@ -79,11 +79,11 @@
 <a href="v.info.html">v.info</a>,
 <a href="v.in.ogr.html">v.in.ogr</a>,
 <a href="v.to.db.html">v.to.db</a>,<br>
-<a HREF="sql.html">SQL support in GRASS GIS</a>
+<a href="sql.html">SQL support in GRASS GIS</a>
 </em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Radim Blazek
 

Modified: grass/branches/develbranch_6/vector/v.in.dwg/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.in.dwg/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.in.dwg/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -11,7 +11,7 @@
 
 v.in.dwg requires OpenDWG toolkit. To get this toolkit you must become at
 least "Associate Member" of OpenDWG Alliance (http://www.opendesign.com/).
-<P>
+<p>
 The toolkit, for example <tt>ad27linx.tar</tt>, unpack in a directory
 (e.g. /home/usr1/opendwg27) and use the related <tt>configure</tt> options
 to tell GRASS about it:
@@ -25,7 +25,7 @@
 </pre></div>
 
 Then you can compile this module.
-<P>
+<p>
 Not all entity types are supported (warning printed).
 
 

Modified: grass/branches/develbranch_6/vector/v.in.dxf/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.in.dxf/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.in.dxf/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -5,21 +5,21 @@
 <ul>
 <li>GRASS point type:</li>
  <ul>
-  <li><B>DXF POINT</B></li>
+  <li><b>DXF POINT</b></li>
  </ul>
 <li>GRASS line type:</li>
  <ul>
-  <li><B>DXF LINE</B></li>
-  <li><B>DXF POLYLINE</B></li>
-  <li><B>DXF LWPOLYLINE</B></li>
-  <li><B>DXF ARC</B></li>
-  <li><B>DXF CIRCLE</B></li>
-  <li><B>DXF TEXT</B></li>
+  <li><b>DXF LINE</b></li>
+  <li><b>DXF POLYLINE</b></li>
+  <li><b>DXF LWPOLYLINE</b></li>
+  <li><b>DXF ARC</b></li>
+  <li><b>DXF CIRCLE</b></li>
+  <li><b>DXF TEXT</b></li>
  </ul>
 <li>GRASS face type:</li>
  <ul>
-  <li><B>DXF POLYFACE MESHES</B></li>
-  <li><B>DXF 3DFACE</B></li>
+  <li><b>DXF POLYFACE MESHES</b></li>
+  <li><b>DXF 3DFACE</b></li>
  </ul>
 </ul>
 
@@ -27,22 +27,22 @@
 SQL usage (lowercase column names avoid the need to quote them if the
 attribute table is stored in a SQL DBMS such as PostgreSQL).
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <a href="http://en.wikipedia.org/wiki/AutoCAD_DXF">AutoCad DXF</a> (from Wikipedia, the free encyclopedia)
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="v.out.dxf.html">v.out.dxf</A></EM>,
-<EM><a href="vectorintro.html">Introduction to GRASS vector map processing</a></EM>
+<em><a href="v.out.dxf.html">v.out.dxf</a></em>,
+<em><a href="vectorintro.html">Introduction to GRASS vector map processing</a></em>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 Original written by Chuck Ehlschlaeger, 6/1989<BR>
 Revised by Dave Gerdes, 12/1989<BR>
 US Army Construction Engineering Research Lab
-<P>
+<p>
 Updated for GRASS 6 and 3D support. Huidae Cho, 3/2006
 
-<P><I>Last changed: $Date$</I>
+<p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/vector/v.in.ogr/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.in.ogr/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.in.ogr/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -5,12 +5,12 @@
 OGR (Simple Features Library) is part of the 
 <a href="http://www.gdal.org">GDAL</a> library, so you need to
 install GDAL to use <em>v.in.ogr</em>. 
-<P>
+<p>
 If the <b>layer</b> parameter is not given, all available layers 
 are imported as separate GRASS layers into one GRASS vector map. If
 several OGR layer names are given, all these layers are imported as
 separate GRASS layers into one GRASS vector map.
-<P>
+<p>
 The optional <b>spatial</b> parameter defines spatial query extents.
 This parameter allows the user to restrict the region to a spatial subset
 while importing the data. All vector features completely or partially
@@ -38,7 +38,7 @@
 <a href="http://www.gdal.org/ogr/ogr_formats.html">OGR web site</a>.
 
 
-<H2>Location Creation</H2>
+<h2>Location Creation</h2>
 
 <em>v.in.ogr</em> attempts to preserve projection information when importing
 datasets if the source format includes projection information, and if
@@ -48,12 +48,12 @@
 match current location</tt>") and then report the PROJ_INFO parameters of
 the source dataset.
 
-<P>
+<p>
 If the user wishes to ignore the difference between the apparent coordinate
 system of the source data and the current location, they may pass the 
 <b>-o</b> flag to override the projection check.
 
-<P>
+<p>
 If the user wishes to import the data with the full projection definition,
 it is possible to have <em>v.in.ogr</em> automatically create a new location based
 on the projection and extents of the file being read.  This is accomplished
@@ -68,7 +68,7 @@
 The command imports various vector formats:
 
 <ul>
-<li><B>SHAPE files</B>
+<li><b>SHAPE files</b>
 <div class="code"><pre>
 v.in.ogr dsn=/home/user/shape_data/test_shape.shp output=grass_map 
 </pre></div>
@@ -79,13 +79,13 @@
 </pre></div>
 <BR>
 
-<li><B>MapInfo files</B>
+<li><b>MapInfo files</b>
 <div class="code"><pre>
 v.in.ogr dsn=./ layer=mapinfo_test output=grass_map
 </pre></div>
 <BR>
 
-<li><B>Arc Coverage</B><BR>
+<li><b>Arc Coverage</b><BR>
  We import the Arcs and Label points, the module takes care to
  build areas:<br>
 <div class="code"><pre>
@@ -93,7 +93,7 @@
 </pre></div>
 <BR>
 
-<li><B>E00 file</B> (see also <em><a href="v.in.e00.html">v.in.e00</a></em>)<BR>
+<li><b>E00 file</b> (see also <em><a href="v.in.e00.html">v.in.e00</a></em>)<BR>
  First we have to convert the E00 file to an Arc Coverage with 'avcimport' 
  (<a href="http://avce00.maptools.org/avce00/index.html">AVCE00 tools</a>,
  use <em>e00conv</em> first in case that <em>avcimport</em> fails):<br>
@@ -103,27 +103,27 @@
 </pre></div>
 <BR>
 
-<li><B>SDTS files</B> (you have to select the CATD file)<BR>
+<li><b>SDTS files</b> (you have to select the CATD file)<BR>
 <div class="code"><pre>
 v.in.ogr dsn=CITXCATD.DDF output=cities
 </pre></div>
 <BR>
 
-<li><B>TIGER files</B><BR>
+<li><b>TIGER files</b><BR>
 <div class="code"><pre>
 v.in.ogr dsn=input/2000/56015/ layer=CompleteChain,PIP output=t56015_all \
 type=boundary,centroid snap=-1
 </pre></div>
 <BR>
 
-<li><B>PostGIS maps</B> (area example)<BR>
+<li><b>PostGIS maps</b> (area example)<BR>
 <div class="code"><pre>
 v.in.ogr dsn="PG:host=localhost dbname=postgis user=postgres" layer=polymap \
 output=polygons type=boundary,centroid
 </pre></div>
 <BR>
 
-<li><B>Oracle Spatial maps </B><BR>
+<li><b>Oracle Spatial maps </b><BR>
 Note that you have to set the environment-variables <tt>ORACLE_BASE,
 ORACLE_SID, ORACLE_HOME</tt> and <tt>TNS_ADMIN</tt> accordingly.
 <div class="code"><pre>
@@ -133,11 +133,11 @@
 
 <h3>Support of database schema:</h3>
 
-<P>
+<p>
 For schema support, first set a default schema with 
 <em><a href="db.connect.html">db.connect</a></em>. If schema support is
 used the schema name must be specified whenever a db.* module is called.
-<P>
+<p>
 Example:
 <div class="code"><pre>
 db.connect driver=pg database=test schema=user1 group=group1
@@ -171,7 +171,7 @@
 if the attribute table is stored in a SQL DBMS such as PostgreSQL).
 The <b>cnames</b> parameter is used to define new column names during import.
 
-<P>
+<p>
 The DBF database specification limits column names to 10 characters.
 If the default DB is set to DBF and the input data contains longer
 column/field names, they will be truncated. If this results in multiple
@@ -207,7 +207,7 @@
 upon the projection information in the file. If desired, you can then re-project
 it to another location with <em>v.proj</em>.
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <a href="http://www.gdal.org/ogr/">OGR vector library</a> <br>
 <a href="http://www.gdal.org/ogr/ogr__api_8h.html">OGR vector library C API</a> documentation
@@ -216,15 +216,15 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="db.connect.html">db.connect</a>,
-<a HREF="v.clean.html">v.clean</a>,
-<a HREF="v.build.polylines.html">v.build.polylines</a>,
-<a HREF="v.edit.html">v.edit</a>,
-<a HREF="v.external.html">v.external</a>,
+<a href="db.connect.html">db.connect</a>,
+<a href="v.clean.html">v.clean</a>,
+<a href="v.build.polylines.html">v.build.polylines</a>,
+<a href="v.edit.html">v.edit</a>,
+<a href="v.external.html">v.external</a>,
 <a href="v.in.db.html">v.in.db</a>,
 <a href="v.in.e00.html">v.in.e00</a>,
-<a HREF="v.out.ogr.html">v.out.ogr</a>,<br>
-<a HREF="grass-pg.html">PostGIS driver</a>
+<a href="v.out.ogr.html">v.out.ogr</a>,<br>
+<a href="grass-pg.html">PostGIS driver</a>
 </em>
 
 

Modified: grass/branches/develbranch_6/vector/v.in.region/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.in.region/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.in.region/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -4,8 +4,8 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="g.region.html">g.region</a></em><br>
-<em><a HREF="d.vect.html">d.vect</a></em><br>
+<em><a href="g.region.html">g.region</a></em><br>
+<em><a href="d.vect.html">d.vect</a></em><br>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.kcv/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.kcv/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.kcv/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
        <I>v.kcv</I>  randomly  divides  a  points  lists  into  <I>k</I> sets of
-       test/train data (for <B>k</B>-fold <B>c</B>ross <B>v</B>alidation).
+       test/train data (for <b>k</b>-fold <b>c</b>ross <b>v</b>alidation).
        Test  partitions  are  mutually  exclusive.  That  is,  a point will
        appear in only one test partition and <I>k-1</I> training  partitions.
 
@@ -17,7 +17,7 @@
        testing).  This  process of filling up a test partition is
        done <I>k</I> times.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
        An ideal random sites generator will follow a Poisson dis
       <!-- BUG: missing text -->
        only be as random as the  original  points.   This  program
@@ -28,21 +28,21 @@
 
        This program may not work properly with Lat-long data.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 <I><a href=v.random.html>v.random</a></I> and 
 <I><a href=g.region.html>g.region</a></I>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
-<A HREF="http://mccauley-usa.com/">James Darrell McCauley</A>
-<A HREF="mailto:darrell at mccauley-usa.com">&lt;darrell at mccauley-usa.com&gt;</A>,
+<a href="http://mccauley-usa.com/">James Darrell McCauley</a>
+<a href="mailto:darrell at mccauley-usa.com">&lt;darrell at mccauley-usa.com&gt;</a>,
 <br>when he was at: 
-<A HREF="http://ABE.www.ecn.purdue.edu/ABE/">Agricultural
-Engineering</A>
-<A HREF="http://www.purdue.edu/">Purdue University</A>
+<a href="http://ABE.www.ecn.purdue.edu/ABE/">Agricultural
+Engineering</a>
+<a href="http://www.purdue.edu/">Purdue University</a>
 
-<P>
+<p>
 Update to 5.7 Radim Blazek 10 / 2004
 
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/vector/v.kernel/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.kernel/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.kernel/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <em>v.kernel</em> generates a raster density map from vector points data using
 a moving kernel. Available <a href="http://en.wikipedia.org/wiki/Kernel_(statistics)#Kernel_functions_in_common_use">kernel density functions</a> are <em>uniform, 
@@ -12,33 +12,33 @@
 method uses the kernel function selected with the <em>kernel</em> option 
 and can be enabled with <em>node=split</em>.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The <em>mult</em> option is needed to overcome the limitation that
 the resulting density in case of a vector map output is stored as category
 (Integer). The density result stored as category may be multiplied by this number.
-<P>
+<p>
 With the <em>-o</em> flag (experimental) the command tries to calculate an 
 optimal standard deviation. The value of <em>stddeviation</em> is taken 
 as maximum value. Standard deviation is calculated using ALL points, 
 not just those in the current region.
 
 
-<H2>LIMITATIONS</H2>
+<h2>LIMITATIONS</h2>
 The module only considers the presence of points, but not 
 (yet) any attribute values.
 
-<H2>SEE ALSO</H2>
-<A HREF="v.surf.rst.html">v.surf.rst</A>
+<h2>SEE ALSO</h2>
+<a href="v.surf.rst.html">v.surf.rst</a>
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 Okabe, A., Satoh, T., Sugihara, K. (2009). <i>A kernel density estimation 
 method for networks, its computational method and a GIS-based tool</i>.
 <b>International Journal of Geographical Information Science</b>, Vol 23(1), 
 pp. 7-32.<br>
 DOI: <a href="http://dx.doi.org/10.1080/13658810802475491">10.1080/13658810802475491</a>
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 Stefano Menegon, <a href="http://mpa.itc.it/">ITC-irst</a>, Trento, Italy
 <BR>

Modified: grass/branches/develbranch_6/vector/v.label/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.label/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.label/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,30 +1,30 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.label</EM> makes a label-file from a GRASS vector map
+<em>v.label</em> makes a label-file from a GRASS vector map
 with labels created from attributes in the attached table.
 If no label file name is given, the name of the source map is used.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 If the <em>fontsize</em> option is given then the <em>space</em> option
 is determined automatically <em>from the current display window</em>, 
 otherwise the <em>space</em> option should be set roughly the same
 as the <em>size</em> option.
-<P>
+<p>
 
 <BR>
-A description of the labels file follows.<P> 
+A description of the labels file follows.<p> 
 The file is located in <tt>$MAPSET/paint/labels/</tt>.
 The file is a plain-text ASCII file containing the following fields:
 <BR>
 <h4>Caution: The following information may be incomplete, out of date, 
 and wrong!</h4>
-<P>
+<p>
 The label information that must be provided in the <em>labels</em> file is:
 
 <DL>
-<DT><B>TEXT</B>:
+<DT><b>TEXT</b>:
 
 <DD><!--Up to four lines of text.-->
 Lines in multiple line labels will appear one above the next.
@@ -34,14 +34,14 @@
 
 
 <!-- I don't think it exists. -HB 6/2005
-<DT><B>SKIP</B>:
+<DT><b>SKIP</b>:
 
-<DD>yes|no. If <EM>no</EM>, label will be printed.  If
-<EM>yes</EM>, the label will be retained in the file but
+<DD>yes|no. If <em>no</em>, label will be printed.  If
+<em>yes</em>, the label will be retained in the file but
 not printed.
 -->
 
-<DT><B>LOCATION</B>:
+<DT><b>LOCATION</b>:
 
 <DD>Determines where the text will be located on the
 image.  The user specifies the easting and northing, and
@@ -54,11 +54,11 @@
 the offset is measured in PostScript points (i.e. 1/72" steps).
 
 
-<DT><B>PLACEMENT</B>:
+<DT><b>PLACEMENT</b>:
 
 <DD>Determines which part of the label to which the
 location refers.  If placement is unspecified, the label is
-centered (<EM>center</EM>), by default.  Label placement
+centered (<em>center</em>), by default.  Label placement
 may be specified as:
 
 <PRE>
@@ -75,29 +75,29 @@
 </PRE>
 
 
-<DT><B>FONT</B>:
+<DT><b>FONT</b>:
 
 <DD>This specifies the font to use.
-<P>
+<p>
 The following fonts are available for use with
   <a href="d.labels.html"><i>d.labels</i></a>:
-<P><pre>
+<p><pre>
   cyrilc gothgbt gothgrt gothitt greekc greekcs greekp greeks
   italicc italiccs italict romanc romancs romand romans romant
   scriptc scripts
 </pre>
-<P>
+<p>
 Alternatively the path to a FreeType (.ttf) font may be given.
 (for <em>d.labels</em> only)
-<P>
-The word <EM>standard</EM> can be used to specify the default font 
-(which is <EM>romans</EM>).
-<P>
+<p>
+The word <em>standard</em> can be used to specify the default font 
+(which is <em>romans</em>).
+<p>
 Note <a href="ps.map.html"><em>ps.map</em></a> can override this setting
 to use other fonts. Its default font is Helvetica.
 
 
-<DT><B>TEXT SIZE</B>:
+<DT><b>TEXT SIZE</b>:
 
 <DD>This determines the size of the letters. The <em>size</em>
 specifies the vertical height of the letters in meters on
@@ -106,10 +106,10 @@
 Alternatively <em>fontsize</em> can set the font size in normal font points.
 
 
-<DT><A NAME="textcolor"><B>TEXT COLOR</B></A>:
+<DT><A NAME="textcolor"><b>TEXT COLOR</b></a>:
 
 <DD>This selects the text color.  If unspecified, the
-label's text is drawn in <EM>black</EM>, by default.  The
+label's text is drawn in <em>black</em>, by default.  The
 text color can be specified in one of several ways:
 
 <OL>
@@ -127,24 +127,24 @@
 for example: .5 .4 .7
 <BR>
 (This form is not supported by 
-<EM><A HREF="d.labels.html">d.labels</A></EM>.)
+<em><a href="d.labels.html">d.labels</a></em>.)
 
 <LI>By printer color number to get the exact printer color.
 <BR>
 (This form is not supported by 
-<EM><A HREF="d.labels.html">d.labels</A></EM>.)
+<em><a href="d.labels.html">d.labels</a></em>.)
 -->
 
 <LI>Specify "<tt>none</tt>" to suppress the lettering.
 </OL>
 
 
-<DT><B>WIDTH</B>:
+<DT><b>WIDTH</b>:
 
 <DD>This determines the line thickness of the border box.<BR>
 The maximum value is 25.0.
 
-<DT><B>HIGHLIGHT COLOR</B>:
+<DT><b>HIGHLIGHT COLOR</b>:
 
 <DD>The text can be highlighted in another color so that it
 appears to be in two colors. The text is drawn first in
@@ -153,50 +153,50 @@
 ("<tt>none</tt>") is used by default, if unspecified by the
 user.  To specify use of no highlight color, specify
 "<tt>none</tt>".
-(See <A HREF="#textcolor">TEXT COLOR</A>
+(See <a href="#textcolor">TEXT COLOR</a>
 above for a list of permissible color names.)
 
 
-<DT><B>HIGHLIGHT WIDTH</B>:
+<DT><b>HIGHLIGHT WIDTH</b>:
 
 <DD>Specifies how far from the text lines (in units of
 pixels) the highlight color should extend.  The default
-highlight width is set to <EM>0</EM> (i.e., no highlight
+highlight width is set to <em>0</em> (i.e., no highlight
 color).
 
 
-<DT><B>BACKGROUND COLOR</B>:
+<DT><b>BACKGROUND COLOR</b>:
 
 <DD>Text may be boxed in a solid color by specifying a background color.
 Specify "<tt>none</tt>" for no background.  The default background color
-setting, if unspecified by the user, is <EM>white</EM>.
-(See <A HREF="#textcolor">TEXT COLOR</A>
+setting, if unspecified by the user, is <em>white</em>.
+(See <a href="#textcolor">TEXT COLOR</a>
 above for a list of permissible color names.)
 
 
-<DT><B>BORDER COLOR</B>:
+<DT><b>BORDER COLOR</b>:
 
 <DD>Select a color for the border around the background.
 Specify "<tt>none</tt>" to suppress the border.
-The default border color used, if unspecified, is <EM>black</EM>.
-(See <A HREF="#textcolor">TEXT COLOR</A>
+The default border color used, if unspecified, is <em>black</em>.
+(See <a href="#textcolor">TEXT COLOR</a>
 above for a list of permissible color names.)
 
 
-<DT><B>OPAQUE TO VECTORS</B>:
+<DT><b>OPAQUE TO VECTORS</b>:
 
-<DD><EM>yes|no</EM>.  This field only has meaning if a
-background color is selected.  <EM>yes</EM> will prevent
-vector lines from entering the background.  <EM>no</EM>
+<DD><em>yes|no</em>.  This field only has meaning if a
+background color is selected.  <em>yes</em> will prevent
+vector lines from entering the background.  <em>no</em>
 will allow vector lines to enter the background.  The
 default setting, if unspecified by the user, is
-<EM>yes</EM>.
+<em>yes</em>.
 
 </DL>
 <BR>
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Spearfish example with TrueType font (path may differ):
 
@@ -219,15 +219,15 @@
 
 
 
-<H2>SEE ALSO</H2>
-<EM>
-<A HREF="d.labels.html">d.labels</A><br>
-<A HREF="ps.map.html">ps.map</A>
-</EM>
+<h2>SEE ALSO</h2>
+<em>
+<a href="d.labels.html">d.labels</a><br>
+<a href="ps.map.html">ps.map</a>
+</em>
 <br>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 Philip Verhagen (original s.label)<br>
 Radim Blazek (GRASS 6 port)<br>

Modified: grass/branches/develbranch_6/vector/v.label.sa/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.label.sa/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.label.sa/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,12 +1,12 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.label.sa</EM> makes a label-file from a GRASS vector map
+<em>v.label.sa</em> makes a label-file from a GRASS vector map
 with labels created from attributes in the attached table. The labels are
 placed in as optimal place as possible. The label file has the same syntax
-as the one created by <A HREF="v.label.html">v.label</A>
+as the one created by <a href="v.label.html">v.label</a>
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 North Carolina example:
 <p>
@@ -33,20 +33,20 @@
 </center>
 
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 Edmondson, Christensen, Marks and Shieber: A General Cartographic
 Labeling Algorithm, Cartographica, Vol. 33, No. 4, Winter 1996, pp. 13-23
 The algorithm works by the principle of Simulated Annealing.
 
-<H2>SEE ALSO</H2>
-<EM>
-<A HREF="v.labels.html">d.label</A><br>
-<A HREF="d.labels.html">d.labels</A><br>
-<A HREF="ps.map.html">ps.map</A>
-<A href="http://en.wikipedia.org/wiki/Simulated_Annealing">Wikipedia article on simulated annealing</A>
-</EM><br>
+<h2>SEE ALSO</h2>
+<em>
+<a href="v.labels.html">d.label</a><br>
+<a href="d.labels.html">d.labels</a><br>
+<a href="ps.map.html">ps.map</a>
+<a href="http://en.wikipedia.org/wiki/Simulated_Annealing">Wikipedia article on simulated annealing</a>
+</em><br>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 Wolf Bergenheim
 <br>
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/vector/v.lrs/lrs.html
===================================================================
--- grass/branches/develbranch_6/vector/v.lrs/lrs.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.lrs/lrs.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -168,9 +168,9 @@
 
 Explanations of selected options:
 <ul>
-<li>llayer: vector layer in line map (usually 1; see <a HREF="vectorintro.html">vectorintro</a>
+<li>llayer: vector layer in line map (usually 1; see <a href="vectorintro.html">vectorintro</a>
     for "layer" concept)
-<li>player: vector layer in point map (usually 1; see <a HREF="vectorintro.html">vectorintro</a>
+<li>player: vector layer in point map (usually 1; see <a href="vectorintro.html">vectorintro</a>
     for "layer" concept)
 <li>rsdriver: Driver name for LRS table - DBMI SQL driver (dbf, pg, mysql, sqlite, etc)
 <li>rsdatabase: Database name for LRS table - DBMI SQL database name (e.g., "lrsdb")
@@ -179,14 +179,14 @@
 
 <h2>SEE ALSO</h2>
 
-<em>R. Blazek, 2004, <a HREF="http://gisws.media.osaka-cu.ac.jp/grass04/viewpaper.php?id=50">Introducing the Linear Reference System in GRASS</a>, Bangkok, GRASS User Conf. Proc.</em><br>
-<em>R. Blazek, 2005, <a HREF="http://www.j-geoinfo.net/Content/fulmar05/IJG_095-100.pdf">Introducing the Linear Reference System in GRASS</a>, International Journal of Geoinformatics, Vol. 1(3), pp. 95-100</em><br>
+<em>R. Blazek, 2004, <a href="http://gisws.media.osaka-cu.ac.jp/grass04/viewpaper.php?id=50">Introducing the Linear Reference System in GRASS</a>, Bangkok, GRASS User Conf. Proc.</em><br>
+<em>R. Blazek, 2005, <a href="http://www.j-geoinfo.net/Content/fulmar05/IJG_095-100.pdf">Introducing the Linear Reference System in GRASS</a>, International Journal of Geoinformatics, Vol. 1(3), pp. 95-100</em><br>
 <p>
-<em><a HREF="v.build.polylines.html">v.build.polylines</a></em>,
-<em><a HREF="v.lrs.create.html">v.lrs.create</a></em>,
-<em><a HREF="v.lrs.segment.html">v.lrs.segment</a></em>,
-<em><a HREF="v.lrs.where.html">v.lrs.where</a></em>,
-<em><a HREF="v.lrs.label.html">v.lrs.label</a></em>
+<em><a href="v.build.polylines.html">v.build.polylines</a></em>,
+<em><a href="v.lrs.create.html">v.lrs.create</a></em>,
+<em><a href="v.lrs.segment.html">v.lrs.segment</a></em>,
+<em><a href="v.lrs.where.html">v.lrs.where</a></em>,
+<em><a href="v.lrs.label.html">v.lrs.label</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.mkgrid/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.mkgrid/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.mkgrid/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,19 +1,19 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.mkgrid</EM> will create a vector map representation of a regular coordinate grid.
+<em>v.mkgrid</em> will create a vector map representation of a regular coordinate grid.
 Both point and area vector grids can be created.
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Grid points created with the <b>-p</b> flag will be placed at the
 <i>center</i> of each grid cell, not at the grid line nodes.
-<P>
+<p>
 This is NOT to be used to generate a vector map of USGS quadrangles,
 because USGS quads are not exact rectangles.
 
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 Make a 4x3 grid, cells 20km a side, with lower left corner at 2716500,6447000:
 <div class="code"><pre>
@@ -21,7 +21,7 @@
 </pre></div>
 <BR>
 
-<P>
+<p>
 Make a 10x12 lat/lon grid, cells 2 arc-min a side, with lower left corner
 at 167deg 52min east, 47deg 6min south. For use with e.g. QGIS you can then
 pull this grid into a projected location with <em>v.proj</em> before
@@ -32,18 +32,18 @@
 </pre></div>
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<A HREF="v.patch.html">v.patch</A>,
-<A HREF="d.grid.html">d.grid</A>
+<a href="v.patch.html">v.patch</a>,
+<a href="d.grid.html">d.grid</a>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Higgins,
 U.S.Army Construction Engineering 
 Research Laboratory
-<P>
+<p>
 Update for new vectors Radim Blazek 10/2004 
 
 <p>

Modified: grass/branches/develbranch_6/vector/v.neighbors/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.neighbors/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.neighbors/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,14 +1,14 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 Makes each cell value a function of the attribute values assigned to the
 vector points or centroids around it, and stores new cell values in
 an output raster map layer.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<A HREF="r.neighbors.html">r.neighbors</A>
+<a href="r.neighbors.html">r.neighbors</a>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Radim Blazek
 

Modified: grass/branches/develbranch_6/vector/v.net/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -9,12 +9,12 @@
 
 If vector editing is required to modify the graph, <em>v.digit</em>
 or <em>v.edit</em> can be used. Separately, 
-<a HREF="lrs.html">Linear Referencing System</a> is available
+<a href="lrs.html">Linear Referencing System</a> is available
 in GRASS.
 
 <h3>EXAMPLES</h3>
 
-Spearfish based examples:<P>
+Spearfish based examples:<p>
 
 Create nodes globally for all line ends and intersections:
 <br>
@@ -22,7 +22,7 @@
 v.net in=streams out=streams_node
 </pre></div>
 
-<P>
+<p>
 Merge in nodes from a separate map within given threshold:
 <br>
 <div class="code"><pre>
@@ -37,12 +37,12 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="v.digit.html">v.digit</a></em>,
-<em><a HREF="v.edit.html">v.edit</a></em>,
-<em><a HREF="v.net.iso.html">v.net.iso</a></em>,
-<em><a HREF="v.net.path.html">v.net.path</a></em>,
-<em><a HREF="v.net.steiner.html">v.net.steiner</a></em>,
-<em><a HREF="v.net.salesman.html">v.net.salesman</a></em>
+<em><a href="v.digit.html">v.digit</a></em>,
+<em><a href="v.edit.html">v.edit</a></em>,
+<em><a href="v.net.iso.html">v.net.iso</a></em>,
+<em><a href="v.net.path.html">v.net.path</a></em>,
+<em><a href="v.net.steiner.html">v.net.steiner</a></em>,
+<em><a href="v.net.salesman.html">v.net.salesman</a></em>
 
 <h2>AUTHORS</h2>
 

Modified: grass/branches/develbranch_6/vector/v.net.alloc/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.alloc/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.alloc/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -144,12 +144,12 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.path.html">d.path</a></em>,
-<em><a HREF="v.net.html">v.net</a></em>,
-<em><a HREF="v.net.iso.html">v.net.iso</a></em>,
-<em><a HREF="v.net.path.html">v.net.path</a></em>,
-<em><a HREF="v.net.steiner.html">v.net.steiner</a></em>,
-<em><a HREF="v.net.salesman.html">v.net.salesman</a></em>
+<em><a href="d.path.html">d.path</a></em>,
+<em><a href="v.net.html">v.net</a></em>,
+<em><a href="v.net.iso.html">v.net.iso</a></em>,
+<em><a href="v.net.path.html">v.net.path</a></em>,
+<em><a href="v.net.steiner.html">v.net.steiner</a></em>,
+<em><a href="v.net.salesman.html">v.net.salesman</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.net.allpairs/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.allpairs/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.allpairs/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -30,14 +30,14 @@
 <div class="code"><pre>
 v.net.allpairs input=roads output=roads_pairs afcol=SHAPE_LEN where="crossing=1"
 </pre></div>
-<P>
+<p>
 
 
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.net.path">v.net.path</a>,
-<a HREF="v.net.distance">v.net.distance</a>
+<a href="v.net.path">v.net.path</a>,
+<a href="v.net.distance">v.net.distance</a>
 </em>
 
 

Modified: grass/branches/develbranch_6/vector/v.net.bridge/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.bridge/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.bridge/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -26,7 +26,7 @@
 
 <div class="code"><pre>
 </pre></div>
-<P>
+<p>
 
 <div class="code"><pre>
 </pre></div>
@@ -35,7 +35,7 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.category.html">v.category</a>,
+<a href="v.category.html">v.category</a>,
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.net.centrality/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.centrality/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.centrality/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -29,7 +29,7 @@
 <div class="code"><pre>
 v.net.centrality input=roads output=roads_cent closeness=close betweenness=betw -a
 </pre></div>
-<P>
+<p>
 
 <div class="code"><pre>
 </pre></div>
@@ -38,7 +38,7 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.generalize.html">v.generalize</a>
+<a href="v.generalize.html">v.generalize</a>
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.net.components/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.components/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.components/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -26,7 +26,7 @@
 <div class="code"><pre>
 v.net.components input=roads output=roads_components method=strong
 </pre></div>
-<P>
+<p>
 
 <div class="code"><pre>
 </pre></div>
@@ -35,7 +35,7 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.category.html">v.category</a>,
+<a href="v.category.html">v.category</a>,
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.net.connectivity/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.connectivity/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.connectivity/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -5,21 +5,21 @@
  given sets. 
 
 <h2>NOTES</h2>
-Two sets (<em>set1</em> and <em>set2</em>) are specified by respective 
-<b>layer</b>, <b>where</b> and <b>cats</b> parameters. Similarly to 
-<a HREF="v.net.flow.html">v.net.flow</a> module, capacities of nodes can 
-be given by <b>ncolumn</b> option. <em>v.net.connectivity</em> finds the 
-set of nodes of minimum total capacitiy separating the two given sets and 
-outputs map containing points on the positions of these nodes. Default 
+Two sets (<em>set1</em> and <em>set2</em>) are specified by respective
+<b>layer</b>, <b>where</b> and <b>cats</b> parameters. Similarly to
+<a href="v.net.flow.html">v.net.flow</a> module, capacities of nodes can
+be given by <b>ncolumn</b> option. <em>v.net.connectivity</em> finds the
+set of nodes of minimum total capacitiy separating the two given sets and
+outputs map containing points on the positions of these nodes. Default
 capacity, which is used when no column is specified, is one.
 
 <h2>EXAMPLES</h2>
-The following command finds the minimum number of intersections separating 
+The following command finds the minimum number of intersections separating
 roads on the left bank from roads on the right bank. 
 <div class="code"><pre>
 v.net.connectivity input=roads output=roads_conn set1_where="bank=left" set2_where="bank=right"
 </pre></div>
-<P>
+<p>
 
 <div class="code"><pre>
 v.net.connectivity input=airtraffic output=connectivity set1_where="name=JFK" set2_where="name=Heathrow" ncolumn=capacity
@@ -29,8 +29,8 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.net.flow.html">v.net.flow</a>,
-<a HREF="v.net.bridge.html">v.net.bridge</a>
+<a href="v.net.flow.html">v.net.flow</a>,
+<a href="v.net.bridge.html">v.net.bridge</a>
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.net.distance/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.distance/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.distance/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -31,15 +31,15 @@
 v.net.distance input=city output=nearest from_where="type=school" to_where="type=hospital" afcolumn=SHAPE_LEN
 d.vect nearest cats=1
 </pre></div>
-<P>
+<p>
 
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.net.path.html">v.net.path</a>,
-<a HREF="v.net.allpairs.html">v.net.allpairs</a>,
-<a HREF="v.distance.html">v.net.distance</a>,
-<a HREF="v.net.alloc.html">v.net.alloc</a>
+<a href="v.net.path.html">v.net.path</a>,
+<a href="v.net.allpairs.html">v.net.allpairs</a>,
+<a href="v.distance.html">v.net.distance</a>,
+<a href="v.net.alloc.html">v.net.alloc</a>
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.net.flow/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.flow/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.flow/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -30,7 +30,7 @@
 <div class="code"><pre>
 v.net.flow input=roads output=roads_flow cut=roads_cut afcolumn=SPEED source_where="type=factory" sink_where="type=store"
 </pre></div>
-<P>
+<p>
 
 If all the capacties are one then the minimum cut corresponds to the 
 minimum number of edges separating sources from sinks. 
@@ -42,7 +42,7 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.net.connectivity.html">v.net.connectivity</a>
+<a href="v.net.connectivity.html">v.net.connectivity</a>
 </em>
 
 

Modified: grass/branches/develbranch_6/vector/v.net.iso/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.iso/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.iso/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -27,7 +27,7 @@
 <h2>EXAMPLES</h2>
 
 The map must contain at least one center (point) on the vector network 
-which can be patched into with <a HREF="v.net.html">v.net</a>.
+which can be patched into with <a href="v.net.html">v.net</a>.
 
 <p>
 Isonetwork using distance:
@@ -158,13 +158,13 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.path.html">d.path</a></em>,
-<em><a HREF="v.net.html">v.net</a></em>,
-<em><a HREF="v.net.alloc.html">v.net.alloc</a></em>,
-<em><a HREF="v.net.path.html">v.net.path</a></em>,
-<em><a HREF="v.net.salesman.html">v.net.salesman</a></em>,
-<em><a HREF="v.net.steiner.html">v.net.steiner</a></em>,
-<em><a HREF="v.patch.html">v.patch</a></em>
+<em><a href="d.path.html">d.path</a></em>,
+<em><a href="v.net.html">v.net</a></em>,
+<em><a href="v.net.alloc.html">v.net.alloc</a></em>,
+<em><a href="v.net.path.html">v.net.path</a></em>,
+<em><a href="v.net.salesman.html">v.net.salesman</a></em>,
+<em><a href="v.net.steiner.html">v.net.steiner</a></em>,
+<em><a href="v.patch.html">v.patch</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.net.path/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.path/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.path/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -22,7 +22,7 @@
 <p>
 Least cost paths are written to the output vector map with an 
 attached attribute table.
-<P>
+<p>
 Nodes can be piped into the program from file or from stdin. The
 syntax is as follows:
 <div class="code"><pre>
@@ -67,7 +67,7 @@
 If the cost columns 'afcol', 'abcol' and 'ncol' are not
 specified, the length of network segments is measured and 
 zero costs are assumed for nodes.
-<P>
+<p>
 When using attributes, the length of segments is not used. To get
 accurate results, the line length must be taken into account when 
 assigning costs as attributes. For example, to get the <b>fastest path</b>, 
@@ -156,13 +156,13 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.path.html">d.path</a></em>,
-<em><a HREF="v.net.html">v.net</a></em>,
-<em><a HREF="v.net.alloc.html">v.net.alloc</a></em>,
-<em><a HREF="v.net.iso.html">v.net.iso</a></em>,
-<em><a HREF="v.net.salesman.html">v.net.salesman</a></em>,
-<em><a HREF="v.net.steiner.html">v.net.steiner</a></em>,
-<em><a HREF="v.to.db.html">v.to.db</a></em>
+<em><a href="d.path.html">d.path</a></em>,
+<em><a href="v.net.html">v.net</a></em>,
+<em><a href="v.net.alloc.html">v.net.alloc</a></em>,
+<em><a href="v.net.iso.html">v.net.iso</a></em>,
+<em><a href="v.net.salesman.html">v.net.salesman</a></em>,
+<em><a href="v.net.steiner.html">v.net.steiner</a></em>,
+<em><a href="v.to.db.html">v.to.db</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.net.salesman/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.salesman/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.salesman/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -136,12 +136,12 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.path.html">d.path</a></em>,
-<em><a HREF="v.net.html">v.net</a></em>,
-<em><a HREF="v.net.alloc.html">v.net.alloc</a></em>,
-<em><a HREF="v.net.iso.html">v.net.iso</a></em>,
-<em><a HREF="v.net.path.html">v.net.path</a></em>,
-<em><a HREF="v.net.steiner.html">v.net.steiner</a></em>
+<em><a href="d.path.html">d.path</a></em>,
+<em><a href="v.net.html">v.net</a></em>,
+<em><a href="v.net.alloc.html">v.net.alloc</a></em>,
+<em><a href="v.net.iso.html">v.net.iso</a></em>,
+<em><a href="v.net.path.html">v.net.path</a></em>,
+<em><a href="v.net.steiner.html">v.net.steiner</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.net.spanningtree/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.spanningtree/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.spanningtree/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -19,12 +19,12 @@
 <div class="code"><pre>
 v.net.spanningtree input=projected_pipelines output=spanningtree accol=cost 
 </pre></div>
-<P>
+<p>
 
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.net.steiner.html">v.net.steiner</a>
+<a href="v.net.steiner.html">v.net.steiner</a>
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.net.steiner/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.steiner/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.steiner/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -3,7 +3,7 @@
 <em>v.net.steiner</em> calculates the optimal connection of nodes on a
 vector network.
 
-<P>
+<p>
 A Steiner tree is used to calculate the minimum-cost vector network
 connecting some number of end nodes in a network framework.
 For example it could be used to find the path following a road system
@@ -119,12 +119,12 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.path.html">d.path</a></em>,
-<em><a HREF="v.net.html">v.net</a></em>,
-<em><a HREF="v.net.alloc.html">v.net.alloc</a></em>,
-<em><a HREF="v.net.iso.html">v.net.iso</a></em>,
-<em><a HREF="v.net.path.html">v.net.path</a></em>,
-<em><a HREF="v.net.salesman.html">v.net.salesman</a></em>
+<em><a href="d.path.html">d.path</a></em>,
+<em><a href="v.net.html">v.net</a></em>,
+<em><a href="v.net.alloc.html">v.net.alloc</a></em>,
+<em><a href="v.net.iso.html">v.net.iso</a></em>,
+<em><a href="v.net.path.html">v.net.path</a></em>,
+<em><a href="v.net.salesman.html">v.net.salesman</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.net.timetable/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.timetable/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.timetable/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -132,8 +132,8 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.net.path.html">v.net.path</a>,
-<a HREF="v.net.distance.html">v.net.distance</a>
+<a href="v.net.path.html">v.net.path</a>,
+<a href="v.net.distance.html">v.net.distance</a>
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.net.visibility/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.net.visibility/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.net.visibility/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -108,13 +108,13 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="d.path.html">d.path</a></em>,
-<em><a HREF="v.net.html">v.net</a></em>,
-<em><a HREF="v.net.alloc.html">v.net.alloc</a></em>,
-<em><a HREF="v.net.iso.html">v.net.iso</a></em>,
-<em><a HREF="v.net.salesman.html">v.net.salesman</a></em>,
-<em><a HREF="v.net.steiner.html">v.net.steiner</a></em>,
-<em><a HREF="v.to.db.html">v.to.db</a></em>
+<em><a href="d.path.html">d.path</a></em>,
+<em><a href="v.net.html">v.net</a></em>,
+<em><a href="v.net.alloc.html">v.net.alloc</a></em>,
+<em><a href="v.net.iso.html">v.net.iso</a></em>,
+<em><a href="v.net.salesman.html">v.net.salesman</a></em>,
+<em><a href="v.net.steiner.html">v.net.steiner</a></em>,
+<em><a href="v.to.db.html">v.to.db</a></em>
 
 <h2>AUTHOR</h2>
 Maximilian Maldacker<br>

Modified: grass/branches/develbranch_6/vector/v.normal/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.normal/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.normal/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,10 +1,10 @@
-<H2>DESCRIPTION</H2>
-<EM>v.normal</EM>
+<h2>DESCRIPTION</h2>
+<em>v.normal</em>
 computes tests of normality on vector points.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-The tests that <EM>v.normal</EM> performs are indexed
+The tests that <em>v.normal</em> performs are indexed
 below.  The tests that are performed are specified by
 giving an index, ranges of indices, or multiple thereof.
 
@@ -27,7 +27,7 @@
 <LI> Kotz Separate-Families Test for Lognormality vs. Normality
 </OL>
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 <!-- do a meaning ful example -->
 <div class="code"><pre>
@@ -40,21 +40,21 @@
 computes the sample skewness and kurtosis, Geary's
 a-statistic and an approximate normal transformation,
 extreme normal deviates, and Royston's W for the
-<EM>random</EM> vector points.
+<em>random</em> vector points.
 
 <!-- TODO: find references , e.g.
      http://www.itl.nist.gov/div898/handbook/eda/section3/eda35.htm
 -->
 
-<H2>SEE ALSO</H2>
-<A HREF="v.univar.html">v.univar</A>
+<h2>SEE ALSO</h2>
+<a href="v.univar.html">v.univar</a>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
-<A HREF="http://mccauley-usa.com/">James Darrell McCauley</A>
-<A HREF="mailto:darrell at mccauley-usa.com">&lt;darrell at mccauley-usa.com&gt;</A>,
+<a href="http://mccauley-usa.com/">James Darrell McCauley</a>
+<a href="mailto:darrell at mccauley-usa.com">&lt;darrell at mccauley-usa.com&gt;</a>,
 <br>when he was at:
-<A HREF="http://ABE.www.ecn.purdue.edu/ABE/">Agricultural
-Engineering</A>
-<A HREF="http://www.purdue.edu/">Purdue University</A>
+<a href="http://ABE.www.ecn.purdue.edu/ABE/">Agricultural
+Engineering</a>
+<a href="http://www.purdue.edu/">Purdue University</a>
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/vector/v.out.ascii/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.out.ascii/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.out.ascii/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -176,7 +176,7 @@
 <a href="v.category.html">v.category</a>,
 <a href="v.in.ascii.html">v.in.ascii</a>,
 <a href="v.to.points.html">v.to.points</a><br>
-<a HREF="sql.html">GRASS SQL interface</a>
+<a href="sql.html">GRASS SQL interface</a>
 </em>
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.out.dxf/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.out.dxf/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.out.dxf/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,29 +1,29 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-The GRASS program <EM>v.out.dxf</EM> conversion program
+The GRASS program <em>v.out.dxf</em> conversion program
 generates an ASCII DXF (AutoCAD) file from a GRASS vector.
 The output file is placed in the user's current
 working directory unless the user specifies a full pathname
-for the <EM>output</EM>.
+for the <em>output</em>.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 DXF files output by AutoCAD have the suffix <KBD>.dxf</KBD>
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <a href="http://en.wikipedia.org/wiki/AutoCAD_DXF">AutoCad DXF</a> (from Wikipedia, the free encyclopedia)
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="v.in.dxf.html">v.in.dxf</A></EM>,
-<EM><a href="vectorintro.html">Introduction to GRASS vector map processing</a></EM>
+<em><a href="v.in.dxf.html">v.in.dxf</a></em>,
+<em><a href="vectorintro.html">Introduction to GRASS vector map processing</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Charles Ehlschlaeger, U.S. Army Construction Engineering
 Research Laboratory,<br>
-wrote original <EM>v.out.dxf</EM> program in 4/89.
-<P>
+wrote original <em>v.out.dxf</em> program in 4/89.
+<p>
 Update to GRASS 5.7 Radim Blazek, 10/2004
 
 

Modified: grass/branches/develbranch_6/vector/v.out.ogr/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.out.ogr/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.out.ogr/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -115,7 +115,7 @@
 </pre></div>
 
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <a href="http://www.gdal.org/ogr/">OGR vector library</a>
 <br>
@@ -125,11 +125,11 @@
 
 <h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="db.out.ogr.html">db.out.ogr</A>,
-<A HREF="v.external.html">v.external</A>,
-<a HREF="v.in.ogr.html">v.in.ogr</a>
-</EM>
+<em>
+<a href="db.out.ogr.html">db.out.ogr</a>,
+<a href="v.external.html">v.external</a>,
+<a href="v.in.ogr.html">v.in.ogr</a>
+</em>
 
 <h2>AUTHORS</h2>
 

Modified: grass/branches/develbranch_6/vector/v.out.pov/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.out.pov/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.out.pov/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -12,14 +12,14 @@
 #include "vector3d.pov"
 </pre></div>
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <a href="http://www.povray.com">POV-Ray</a>
 
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="r.out.pov.html">r.out.pov</a></em>
+<em><a href="r.out.pov.html">r.out.pov</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.out.svg/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.out.svg/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.out.svg/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -34,7 +34,7 @@
 v.out.svg input=archsites output=/tmp/output.svg type=point precision=0 attrib=str1
 </pre></div>
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <a href="http://svg.cc/grass/index.html">Modul v.out.svg at svg.cc</a>
 <br>
@@ -43,7 +43,7 @@
 
 <h2>SEE ALSO</h2>
 
-<em><A HREF="v.out.ogr.html">v.out.ogr</A></em>
+<em><a href="v.out.ogr.html">v.out.ogr</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.out.vtk/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.out.vtk/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.out.vtk/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -3,7 +3,7 @@
 <em>v.out.vtk</em> 
 converts a GRASS vector map in binary format to the VTK ASCII 
 output. 
-<P>
+<p>
 If the <b>output</b> parameter is not given, the output will be send to stdout.
 
 <h2>NOTES</h2>
@@ -56,9 +56,9 @@
 </ul>
 <p>
 The VTK file can be visualized with
-<EM><A HREF="http://www.vtk.org">VTK Toolkit</A></EM>,
-<EM><A HREF="http://www.paraview.org">Paraview</A></EM> and
-<EM><A HREF="http://mayavi.sourceforge.net">MayaVi</A></EM>.
+<em><a href="http://www.vtk.org">VTK Toolkit</a></em>,
+<em><a href="http://www.paraview.org">Paraview</a></em> and
+<em><a href="http://mayavi.sourceforge.net">MayaVi</a></em>.
 
 <h3>Attention</h3>
 If areas or faces are exported, the data have to be triangulated within Paraview or
@@ -68,7 +68,7 @@
 <h2>EXAMPLE</h2>
 
 Spearfish example:
-<P>
+<p>
 Export the soils with cats in layer 1:
 <div class="code"><pre>
 v.out.vtk input=soils type=area layer=1 output=/tmp/soils.vtk
@@ -85,9 +85,9 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.out.ascii.html">v.out.ascii</a><BR>
-<a HREF="r.out.vtk.html">r.out.vtk</a><BR>
-<a HREF="r3.out.vtk.html">r3.out.vtk</a><BR>
+<a href="v.out.ascii.html">v.out.ascii</a><BR>
+<a href="r.out.vtk.html">r.out.vtk</a><BR>
+<a href="r3.out.vtk.html">r3.out.vtk</a><BR>
 </em>
 
 

Modified: grass/branches/develbranch_6/vector/v.parallel/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.parallel/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.parallel/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,15 +1,15 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.parallel</EM> create parallel line to input vector lines which
+<em>v.parallel</em> create parallel line to input vector lines which
 can be used as half-buffers.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="v.buffer.html">v.buffer</A>
-</EM>
+<em>
+<a href="v.buffer.html">v.buffer</a>
+</em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Radim Blazek
 

Modified: grass/branches/develbranch_6/vector/v.parallel2/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.parallel2/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.parallel2/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,15 +1,15 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.parallel</EM> creates parallel lines to the input vector lines which
+<em>v.parallel</em> creates parallel lines to the input vector lines which
 can be used as half-buffers.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="v.buffer.html">v.buffer</A>
-</EM>
+<em>
+<a href="v.buffer.html">v.buffer</a>
+</em>
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 Radim Blazek<br>
 Rewritten by Rosen Matev (with support through the Google Summer of Code program 2008)

Modified: grass/branches/develbranch_6/vector/v.patch/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.patch/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.patch/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -11,18 +11,18 @@
 patched together (e.g., border lines) will have to be
 edited or removed after <em>v.patch</em> is run. Such
 editing can be done automatically using
-<em><a HREF="v.clean.html">v.clean</a></em>.
+<em><a href="v.clean.html">v.clean</a></em>.
 <p>
 Lines may need to be
-snapped with <em><a HREF="v.clean.html">v.clean</a>
+snapped with <em><a href="v.clean.html">v.clean</a>
 tool=snap,break,rmdupl</em>.
 <p>
 Boundaries may need to be cleaned with
-<em><a HREF="v.clean.html">v.clean</a> tool=break,rmdupl,rmsa</em>
+<em><a href="v.clean.html">v.clean</a> tool=break,rmdupl,rmsa</em>
 repeatedly until the <em>rmsa</em> tool (Remove small angles at nodes)
 no longer modifies any boundaries. If vector topology is still not
 clean, boundaries may also need to be snapped with
-<em><a HREF="v.clean.html">v.clean</a> tool=snap,break,rmdupl</em>.
+<em><a href="v.clean.html">v.clean</a> tool=snap,break,rmdupl</em>.
 <p>
 When using the <em>-a</em> flag, the user has to make sure that the
 features in the different maps added to the output map do not have
@@ -49,10 +49,10 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="v.clean.html">v.clean</a></em>,
-<em><a HREF="v.build.html">v.build</a></em>,
-<em><a HREF="v.select.html">v.select</a></em>,
-<em><a HREF="v.overlay.html">v.overlay</a></em>
+<em><a href="v.clean.html">v.clean</a></em>,
+<em><a href="v.build.html">v.build</a></em>,
+<em><a href="v.select.html">v.select</a></em>,
+<em><a href="v.overlay.html">v.overlay</a></em>
 
 
 <h2>AUTHORS</h2>

Modified: grass/branches/develbranch_6/vector/v.perturb/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.perturb/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.perturb/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,12 +1,12 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.perturb</EM>
+<em>v.perturb</em>
 reads a vector map of points and writes the same points but
-<EM>perturbs</EM> the eastings and northings by
+<em>perturbs</em> the eastings and northings by
 adding either a uniform or normal delta value. Perturbation means that
 a variating spatial deviation is added to the coordinates.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 The uniform distribution is always centered about zero.
 The associated <em>parameter</em> is constrained to be positive and
@@ -14,31 +14,31 @@
 the negation of that parameter. Do perturb into a ring around the
 center, the <em>minimum</em> parameter can be used.
 
-<P>
+<p>
 
 Usually, the mean (first parameter) of the normal
 distribution is zero (i.e., the distribution is centered at
 zero). The standard deviation (second parameter) is
 naturally constrained to be positive.
 
-<P>
+<p>
 
 Output vector points are not guaranteed to be contained within the
 current geographic region.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="v.random.html">v.random</A></EM><br>
-<EM><A HREF="v.univar.html">v.univar</A></EM><br>
+<em><a href="v.random.html">v.random</a></em><br>
+<em><a href="v.univar.html">v.univar</a></em><br>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
-<A HREF="http://mccauley-usa.com/">James Darrell McCauley</A>
+<a href="http://mccauley-usa.com/">James Darrell McCauley</a>
 <br>when he was at: 
-<A HREF="http://ABE.www.ecn.purdue.edu/ABE/">Agricultural Engineering</A>
-<A HREF="http://www.purdue.edu/">Purdue University</A>
-<P>
+<a href="http://ABE.www.ecn.purdue.edu/ABE/">Agricultural Engineering</a>
+<a href="http://www.purdue.edu/">Purdue University</a>
+<p>
 Random number generators originally written in FORTRAN by Wes Peterson and
 translated to C using <i>f2c</i>.
 

Modified: grass/branches/develbranch_6/vector/v.proj/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.proj/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.proj/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <em>v.proj</em> allows a user to convert a vector map in a specified mapset
 of a specified location (different from current) with projection of input
@@ -7,56 +7,56 @@
 corresponding PROJ_INFO files).
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-If <B>out</B> is not specified it is set to be the same as input map name.
+If <b>out</b> is not specified it is set to be the same as input map name.
 
 <BR>
-If <B>dbase</B> is not specified it is assumed to be the current database.
-The user only has to specify <B>dbase</B> if the source location is stored
+If <b>dbase</b> is not specified it is assumed to be the current database.
+The user only has to specify <b>dbase</b> if the source location is stored
 in another separate GRASS database.
 
 <BR>
-If <B>set</B> is not specified, its name is assumed to be the same as the current
+If <b>set</b> is not specified, its name is assumed to be the same as the current
  mapset's name. 
 
-<P>
-<EM>v.proj</EM> supports general datum transformations, making use of the
-<EM>PROJ.4</EM> co-ordinate system translation library.
+<p>
+<em>v.proj</em> supports general datum transformations, making use of the
+<em>PROJ.4</em> co-ordinate system translation library.
 </P>
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 <div class="code"><pre>
 v.proj in=mymap location=latlong mapset=user1
 </pre></div>
 
-<H2>REFERENCES</H2>
+<h2>REFERENCES</h2>
 
 <a href=http://proj.maptools.org/>PROJ 4</a>: Projection/datum support library.
 
-<P>
-<B>Further reading</B>
+<p>
+<b>Further reading</b>
 <ul>
 <li> <a href="http://www.asprs.org/resources/grids/">ASPRS Grids and Datum</a>
 <li> <a href="http://www.mapref.org">MapRef - The Collection of Map Projections and Reference Systems for Europe</a>
 <li> <a href="http://www.remotesensing.org/geotiff/proj_list/">Projections Transform List</a> (PROJ4)
 </ul>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-<A HREF="r.proj.html">r.proj</A>,
-<A HREF="g.proj.html">g.proj</A>,
-<A HREF="g.setproj.html">g.setproj</A>,
-<A HREF="i.rectify.html">i.rectify</A>,  
-<A HREF="r.stats.html">r.stats</A>,  
-<A HREF="v.sample.html">v.sample</A>,
-<A HREF="v.surf.idw.html">v.surf.idw</A>,
-<A HREF="v.surf.rst.html">v.surf.rst</A>
-</EM>
+<em>
+<a href="r.proj.html">r.proj</a>,
+<a href="g.proj.html">g.proj</a>,
+<a href="g.setproj.html">g.setproj</a>,
+<a href="i.rectify.html">i.rectify</a>,  
+<a href="r.stats.html">r.stats</a>,  
+<a href="v.sample.html">v.sample</a>,
+<a href="v.surf.idw.html">v.surf.idw</a>,
+<a href="v.surf.rst.html">v.surf.rst</a>
+</em>
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 
 Irina Kosinovsky, US ARMY CERL
 <BR>

Modified: grass/branches/develbranch_6/vector/v.qcount/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.qcount/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.qcount/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,7 +1,7 @@
 <h2>DESCRIPTION</h2>
 
-<em>v.qcount</em> chooses <B>n</B> circular quadrats of
-radius <B>r</B> such that they are completely within the
+<em>v.qcount</em> chooses <b>n</b> circular quadrats of
+radius <b>r</b> such that they are completely within the
 bounds of the current region and no two quadrats overlap.
 The number of points falling within each quadrat are counted
 and indices are calculated to estimate the departure of

Modified: grass/branches/develbranch_6/vector/v.random/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.random/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.random/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.random</EM> randomly generates vector points within the
+<em>v.random</em> randomly generates vector points within the
 current region using the selected random number generator.
 
 <p><em>v.random</em> can generate also 3D vector points or
@@ -32,32 +32,32 @@
 v.what.vect vector=random_samples layer=1 column=geology qvector=geology at PERMANENT qlayer=1 qcolumn=label 
 </pre></div>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-UNIX man pages for <EM>rand(3)</EM> and <EM>drand48(3)</EM>.
-<P>
-<EM>
-<A HREF="g.region.html">g.region</a>,
-<A HREF="r.random.html">r.random</a>,
-<A HREF="v.perturb.html">v.perturb</A>,
-<A HREF="v.sample.html">v.sample</A>
+UNIX man pages for <em>rand(3)</em> and <em>drand48(3)</em>.
+<p>
+<em>
+<a href="g.region.html">g.region</a>,
+<a href="r.random.html">r.random</a>,
+<a href="v.perturb.html">v.perturb</a>,
+<a href="v.sample.html">v.sample</a>
 <a href="v.what.rast.html">v.what.rast</a>
 <a href="v.what.vect.html">v.what.vect</a>
-</EM>
+</em>
 
-<H2>BUGS</H2>
+<h2>BUGS</h2>
 
 The RNG used by 
-<EM><A HREF="v.perturb.html">v.perturb</A></EM>
+<em><a href="v.perturb.html">v.perturb</a></em>
 should probably be added to this program.<BR>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
-<A HREF="http://mccauley-usa.com/">James Darrell McCauley</A>
-<A HREF="mailto:darrell at mccauley-usa.com">&lt;darrell at mccauley-usa.com&gt;</A>,
+<a href="http://mccauley-usa.com/">James Darrell McCauley</a>
+<a href="mailto:darrell at mccauley-usa.com">&lt;darrell at mccauley-usa.com&gt;</a>,
 <br>when he was at: 
-<A HREF="http://ABE.www.ecn.purdue.edu/ABE/">Agricultural
-Engineering</A>
-<A HREF="http://www.purdue.edu/">Purdue University</A>
+<a href="http://ABE.www.ecn.purdue.edu/ABE/">Agricultural
+Engineering</a>
+<a href="http://www.purdue.edu/">Purdue University</a>
 
 <p><i>Last changed: $Date$</i>

Modified: grass/branches/develbranch_6/vector/v.reclass/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.reclass/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.reclass/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.reclass</EM> allows user to create a new vector map based on
+<em>v.reclass</em> allows user to create a new vector map based on
 the reclassification of an existing vector map. It also allows the user
 to change the <i>key column</i> away from the default of "<b>cat</b>" with
 the <b>column</b> option.
@@ -17,23 +17,23 @@
 
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-No table is created for the reclassed map if the <B>column</B> option is
+No table is created for the reclassed map if the <b>column</b> option is
 used and the column type is integer (as the result could contain ambiguities).
 
-If the <B>column</B> option is used and the column type is string, a new
+If the <b>column</b> option is used and the column type is string, a new
 table is created containing the newly generated cat numbers and a single
 column containing the unique string column values, sorted in alphabetical
 order.
 
-<P>
+<p>
 For dissolving common boundaries, see 
 <em><a href="v.dissolve.html">v.dissolve</a></em>.
 
 
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 
 <H3>Example 1: Reclass by rules</H3>
@@ -52,8 +52,8 @@
 where use = 'E14'
 </pre></div>
 
-Produces a new vector area map <EM>land_u</EM> containing boundaries from
-<EM>land</EM> with area category values selected from database by SQL
+Produces a new vector area map <em>land_u</em> containing boundaries from
+<em>land</em> with area category values selected from database by SQL
 select statement:
 <br>
 <tt>select id from tland where use = 'E13' and owner = 'Jara Cimrman'</tt>
@@ -78,22 +78,22 @@
 </pre></div>
 
 
-<H2>BUGS</H2>
+<h2>BUGS</h2>
 
-No table is created for reclassed layer if <B>rules</B> option is used.
+No table is created for reclassed layer if <b>rules</b> option is used.
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.dissolve.html">v.dissolve</a>,
-<A HREF="v.extract.html">v.extract</A>
+<a href="v.dissolve.html">v.dissolve</a>,
+<a href="v.extract.html">v.extract</a>
 </em>
 <p>
-<em><a HREF="sql.html">GRASS SQL interface</a></em>
+<em><a href="sql.html">GRASS SQL interface</a></em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 R.L. Glenn, USDA, SCS, NHQ-CGIS<BR>
 from v.reclass to v.db.reclass and later to v.reclass in 5.7 rewritten

Modified: grass/branches/develbranch_6/vector/v.sample/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.sample/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.sample/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -24,10 +24,10 @@
 
 <p>
 This program may not work properly with lat-long data when
-the <B>-BC</B> flags are used.
+the <b>-BC</b> flags are used.
 
 <p>
-When interpolation is done (i.e., the <B>-BC</B> flags are
+When interpolation is done (i.e., the <b>-BC</b> flags are
 used), values are assumed to be located at the centroid of
 grid cells.  Therefore, current resolution settings are
 important.

Modified: grass/branches/develbranch_6/vector/v.segment/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.segment/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.segment/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -3,7 +3,7 @@
 <em>v.segment</em> generates segments or points from input lines and from
 positions read from a text file or '<tt>stdin</tt>'.
 
-<P>
+<p>
 The format is:
 <div class="code"><pre>
 P &lt;point id&gt;   &lt;line cat&gt; &lt;offset&gt; [&lt;side offset&gt;]
@@ -21,10 +21,10 @@
 (pipe or redirect from file into the command).<br>
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 A segment is only created for the first line found of the specified category.
-<P>
+<p>
 Points are generated along the lines at the given distance(s) from the
 beginning of the vector line.
 <p>
@@ -34,9 +34,9 @@
 the direction of vector lines). As the segment distance is measured along the
 original line, side-offset lines will be longer than the start-end segment distance
 for outside corners of curving lines, and shorter for inside corners.
-<P>
+<p>
 All offsets are measured in map units (see "<em>g.proj -p</em>").
-<P>
+<p>
 To place a point in the middle of a line, the <em>v.to.db</em> module may be
 used to find the line's length. Then half of that distance can be used as the
 along-line offset.
@@ -119,8 +119,8 @@
 <a href="v.lrs.segment.html">v.lrs.segment</a>,
 <a href="v.parallel.html">v.parallel</a>,
 <a href="v.split.html">v.split</a>,
-<a HREF="v.to.db.html">v.to.db</a>,
-<a HREF="v.to.points.html">v.to.points</a>
+<a href="v.to.db.html">v.to.db</a>,
+<a href="v.to.points.html">v.to.points</a>
 </em>
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/vector/v.select/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.select/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.select/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -61,13 +61,13 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.category.html">v.category</a>,
-<a HREF="v.overlay.html">v.overlay</a>
+<a href="v.category.html">v.category</a>,
+<a href="v.overlay.html">v.overlay</a>
 </em>
 
 <p>
 <em>
-<a HREF="sql.html">GRASS SQL interface</a>
+<a href="sql.html">GRASS SQL interface</a>
 </em>
 
 

Modified: grass/branches/develbranch_6/vector/v.support/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.support/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.support/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -13,12 +13,12 @@
 v.info myvectmap
 </pre></div>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
-	<A HREF="v.build.html">v.build</A>,
-        <A HREF="v.info.html">v.info</A>
-</EM>
+<em>
+	<a href="v.build.html">v.build</a>,
+        <a href="v.info.html">v.info</a>
+</em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.surf.idw/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.surf.idw/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.surf.idw/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,7 +1,7 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <p>
-<EM>v.surf.idw</EM> fills a raster matrix with interpolated
+<em>v.surf.idw</em> fills a raster matrix with interpolated
 values generated from a set of irregularly spaced data
 points using numerical approximation (weighted averaging)
 techniques. The interpolated value of a cell is determined
@@ -13,12 +13,12 @@
 and generates the interpolated surface from the data
 points.</p>
 
-<P>
+<p>
 This program allows the user to use a GRASS vector point map file,
 rather than a raster map layer, as input.</p>
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 <p>
 The amount of memory used by this program is related to the number
@@ -34,7 +34,7 @@
 of the vector geometry, use <em>layer=0</em>. In this case no <em>column</em>
 parameter has to be specified.</p>
 
-<P>
+<p>
 If the user has a mask set, then interpolation is only done
 for those cells that fall within the mask. However, all
 vector points in the current region are used even
@@ -46,37 +46,37 @@
 achieve a similar result.</p>
 
 <p>
-If more than <EM>count</EM> points fall into one target raster cell, 
+If more than <em>count</em> points fall into one target raster cell, 
 the mean of all the site values will determine the cell value (unless
-the -n flag is specified, in which case only the <EM>count</EM> 
+the -n flag is specified, in which case only the <em>count</em> 
 points closest to the centre of the cell will be interpolated).</p>
 
-<P>
-The <EM>power=</EM> parameter defines an exponential distance weight.
+<p>
+The <em>power=</em> parameter defines an exponential distance weight.
 Greater values assign greater influence to values closer to the
 point to be interpolated. The interpolation function peaks sharply over
-the given data points for 0 &lt; <EM>p</EM> &lt; 1 and more smoothly for
+the given data points for 0 &lt; <em>p</em> &lt; 1 and more smoothly for
 larger values. The default value for the power parameter is 2.  
 </p>
 
-<P>
-By setting <EM>npoints=1</EM>, the module can be used 
+<p>
+By setting <em>npoints=1</em>, the module can be used 
 to calculate raster Voronoi diagrams (Thiessen polygons).</p>
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="d.vect.html">d.vect</A></EM><br>
-<EM><A HREF="g.region.html">g.region</A></EM><br>
-<EM><A HREF="r.surf.contour.html">r.surf.contour</A></EM><br>
-<EM><A HREF="r.surf.idw.html">r.surf.idw</A></EM><br>
-<EM><A HREF="r.surf.idw2.html">r.surf.idw2</A></EM><br>
-<EM><A HREF="r.surf.gauss.html">r.surf.gauss</A></EM><br>
-<EM><A HREF="r.surf.fractal.html">r.surf.fractal</A></EM><br>
-<EM><A HREF="r.surf.random.html">r.surf.random</A></EM><br>
-<EM><A HREF="v.surf.rst.html">v.surf.rst</A></EM>
+<em><a href="d.vect.html">d.vect</a></em><br>
+<em><a href="g.region.html">g.region</a></em><br>
+<em><a href="r.surf.contour.html">r.surf.contour</a></em><br>
+<em><a href="r.surf.idw.html">r.surf.idw</a></em><br>
+<em><a href="r.surf.idw2.html">r.surf.idw2</a></em><br>
+<em><a href="r.surf.gauss.html">r.surf.gauss</a></em><br>
+<em><a href="r.surf.fractal.html">r.surf.fractal</a></em><br>
+<em><a href="r.surf.random.html">r.surf.random</a></em><br>
+<em><a href="v.surf.rst.html">v.surf.rst</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Michael Shapiro,  
 U.S. Army Construction Engineering 

Modified: grass/branches/develbranch_6/vector/v.surf.rst/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.surf.rst/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.surf.rst/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -60,7 +60,7 @@
 which represent the quad tree used for segmentation and overlapping neighborhoods
 from which additional points for approximation on each segment were taken.
 
-<P>
+<p>
 
 Predictive error of surface approximation for given parameters can be computed using the 
 <b>-c</b> flag. A crossvalidation procedure is then performed using the data given in the vector map 
@@ -202,7 +202,7 @@
 Using the <em>where</em> parameter, the interpolation can be limited to use
 only a subset of the input vectors.
 
-<P>
+<p>
 Spearfish example (we simulate randomly distributed elevation measures):
 
 <div class="code"><pre>
@@ -303,22 +303,22 @@
 </p>
 
 <h2> REFERENCES</h2>
-<P>
+<p>
 <a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/IEEEGRSL2005.pdf">
 Mitasova, H., Mitas, L. and Harmon, R.S., 2005,</a> 
 Simultaneous spline approximation and topographic analysis for
 lidar elevation data in open source GIS, IEEE GRSL 2 (4), 375- 379.
-<P>
+<p>
 Hofierka, J., 2005, Interpolation of Radioactivity Data Using Regularized Spline with Tension. Applied GIS, Vol. 1, No. 2, 
 pp. 16-01 to 16-13. DOI: 10.2104/ag050016
 </P>
-<P>
+<p>
 <a href="http://skagit.meas.ncsu.edu/~helena/gmslab/papers/TGIS2002_Hofierka_et_al.pdf">
 Hofierka J., Parajka J.,  Mitasova H., Mitas L., 2002,</a>
 Multivariate Interpolation of Precipitation Using Regularized Spline with Tension.
 Transactions in GIS 6(2), pp. 135-150.
 </P>
-<P>
+<p>
 H. Mitasova, L. Mitas, B.M. Brown, D.P. Gerdes, I. Kosinovsky, 1995, Modeling
 spatially and temporally distributed phenomena: New methods and tools for
 GRASS GIS. International Journal of GIS, 9 (4), special issue on Integrating

Modified: grass/branches/develbranch_6/vector/v.to.db/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.to.db/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.to.db/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <em>v.to.db</em> loads vector map features or metrics into a database
 table, or prints them (or the SQL queries used to obtain them) in a
@@ -7,10 +7,10 @@
 found or multiple categories were found. For line azimuths '-1' is used
 for closed lines (start equals end).
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 The units <em>miles</em>, <em>feet</em>, <em>meters</em> and
 <em>kilometers</em> are square for <em>option=area</em>.
-<P>
+<p>
 Feet and acre units are always reported in their common versions
 (i.e. the International Foot, exactly 5280 feet in a mile), even
 when the location's standard map unit is the US Survey foot.
@@ -44,7 +44,7 @@
 <em><a href="v.db.addcol.html">v.db.addcol</a></em> to add new columns if
 needed.
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 <h3>Updating attribute tables</h3>
 
@@ -86,7 +86,7 @@
 v.to.db usa_income_employment2002 option=query col=FIPS_NUM qcol=STATE_FIPS
 </pre></div>
 
-<P>
+<p>
 Upload category numbers of left and right area, to an attribute table of
 boundaries common for the areas:<br>
 <div class="code"><pre>
@@ -176,7 +176,7 @@
 </ul>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Radim Blazek, ITC-irst, Trento, Italy<br>
 Line sinuousity implemented by Wolf Bergenheim

Modified: grass/branches/develbranch_6/vector/v.to.points/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.to.points/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.to.points/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -11,7 +11,7 @@
 The <em>dmax</em> parameter is the maximum limit but not an exact
 distance. To place points with exact distance from the beginning
 of the vector line the user should use
-<a HREF="v.segment.html">v.segment</a>.
+<a href="v.segment.html">v.segment</a>.
 
 <p>
 The <em>type</em> parameter is used to control which input vector
@@ -64,7 +64,7 @@
 <h2>EXAMPLE</h2>
 
 In this example, the 't_powerlines' vector lines map in the
-<a HREF="http://grass.osgeo.org/download/data6.php">Spearfish 6</a>
+<a href="http://grass.osgeo.org/download/data6.php">Spearfish 6</a>
 location is used to create points along the input lines:
 
 <div class="code"><pre>
@@ -75,9 +75,9 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="v.segment.html">v.segment</a>,
-<a HREF="v.to.rast.html">v.to.rast</a>,
-<a HREF="v.to.db.html">v.to.db</a>
+<a href="v.segment.html">v.segment</a>,
+<a href="v.to.rast.html">v.to.rast</a>,
+<a href="v.to.db.html">v.to.db</a>
 </em>
 
 <h2>AUTHOR</h2>

Modified: grass/branches/develbranch_6/vector/v.to.rast/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.to.rast/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.to.rast/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -13,11 +13,11 @@
 therefore ensure that the current geographic region is
 correctly set and that the region resolution is at the
 desired level.
-<P>
+<p>
 Either the <em><b>column</b></em> parameter or the <em><b>value</b></em>
 parameter must be specified.  The <em><b>use</b></em> option may be 
 specified alone when using the <em>dir</em> option.
-<P>
+<p>
 <em><b>use</b></em> options are:
 <ul>
 <LI>
@@ -31,15 +31,15 @@
 <LI>
 <em>dir</em>  - output as flow direction in degrees (lines only)
 </ul>
-<P>
+<p>
 The <em><b>column</b></em> parameter uses an existing column from the vector map
 database table as the category value in the output raster map. Existing table 
 columns can be shown by using <em><a href="db.describe.html">db.describe</a></em>.
-<P>
+<p>
 An empty raster map layer will be created if the vector map layer has not
 been assigned category/attribute labels (e.g., through use of 
 <a href="v.category.html">v.category option=add</a>). 
-<P>
+<p>
 Otherwise:
 <ul>
 <LI>
@@ -54,11 +54,11 @@
 Points and orphaned centroids will be converted into single cells on the
 resultant raster map.
 </ul>
-<P>
-<P>
+<p>
+<p>
 <b>Flow directions</b> are given in degrees counterclockwise from east.
-<P>
-<P>
+<p>
+<p>
 Raster category labels are supported for all of <em>use=</em> except <em>use=z</em>.
 
 <h2>EXAMPLES</h2>
@@ -77,16 +77,16 @@
 v.to.rast in=vect_map out=raster_map col=SPEED
 </pre></div>
 
-<P>
-<P>
+<p>
+<p>
 <em>2. Calculate stream directions from a river vector map (Spearfish)</em><br>
 <div class="code"><pre>
 v.to.rast in=streams out=streamsdir use=dir
 </pre></div>
 </p>
 
-<P>
-<P>
+<p>
+<p>
 <em>3. Convert a vector polygon map to raster including descriptive labels (Spearfish)</em><br>
 <div class="code"><pre>
 v.to.rast in=fields out=myfields use=attr col=cat labelcol=label
@@ -96,8 +96,8 @@
 
 <h2>SEE ALSO</h2>
 <em>
-<a HREF="db.describe.html">db.describe</a>,
-<a HREF="v.category.html">v.category</a>
+<a href="db.describe.html">db.describe</a>,
+<a href="v.category.html">v.category</a>
 </em>
 <br>
 

Modified: grass/branches/develbranch_6/vector/v.to.rast3/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.to.rast3/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.to.rast3/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,20 +1,20 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.to.rast3</EM> converts a GRASS 3D vector point map to a GRASS 3dgrid raster
+<em>v.to.rast3</em> converts a GRASS 3D vector point map to a GRASS 3dgrid raster
 volume (voxel) map.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 When converting from a 3D vector point layer to a 3dcell volume
 a vector point is converted into a single cube
 representing the location of the vector point.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="g.region.html">g.region</A></EM>
+<em><a href="g.region.html">g.region</a></em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Original s.to.rast3: Jaro Hofierka, Geomodel s.r.o.<br>
 Updated by Radim Blazek

Modified: grass/branches/develbranch_6/vector/v.transform/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.transform/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.transform/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -105,7 +105,7 @@
 
 <h2>SEE ALSO</h2>
 
-<em><a HREF="v.in.ogr.html">v.in.ogr</a></em>
+<em><a href="v.in.ogr.html">v.in.ogr</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.type/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.type/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.type/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -10,7 +10,7 @@
 </pre></div>
 
 <h2>SEE ALSO</h2>
-<EM><A HREF="v.to.points.html">v.to.points</A></EM>
+<em><a href="v.to.points.html">v.to.points</a></em>
 
 <h2>AUTHOR</h2>
 

Modified: grass/branches/develbranch_6/vector/v.univar/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.univar/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.univar/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <em>v.univar</em> calculates univariate statistics of vector map features.
 This includes the number of features counted, minimum and maximum values,
@@ -6,12 +6,12 @@
 Variance and standard deviation is calculated only for points if
 <tt>type=point</tt> is defined.
 
-<P>
+<p>
 
 Extended statistics adds median, 1st and 3rd quartiles, and 90th
 percentile.
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 <div class="code"><pre>
 g.region rast=elevation.10m -p
@@ -24,12 +24,12 @@
 </pre></div>
 
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM><A HREF="v.neighbors.html">v.neighbors</A></EM>
+<em><a href="v.neighbors.html">v.neighbors</a></em>
 
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Radim Blazek, ITC-irst
 

Modified: grass/branches/develbranch_6/vector/v.vol.rst/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.vol.rst/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.vol.rst/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -138,10 +138,10 @@
 very long time, so it might be worth to use just a sample data
 representing the whole dataset.
 
-<P>
+<p>
 <i>Example 
  (based on <a href="http://www.grassbook.org/data_menu2nd.phtml">Slovakia3d dataset</a>):</i>
-<P>
+<p>
 <div class="code"><pre>
 v.info -c precip3d
 v.vol.rst -c input=precip3d wcolumn=precip zmult=50 segmax=700 cvdev=cvdevmap tension=10
@@ -152,7 +152,7 @@
 Based on these results, the parameters will have to be optimized. It is
 recommended to plot the CV error as curve while modifying
 the parameters.
-<P>
+<p>
 The best approach is to start with <b>tension</b>, <b>smooth</b>
 and <b>zmult</b> with rough steps, or to set <b>zmult</b> to a
 constant somewhere between 30-60. This helps to find minimal RMSE

Modified: grass/branches/develbranch_6/vector/v.voronoi/v.delaunay.html
===================================================================
--- grass/branches/develbranch_6/vector/v.voronoi/v.delaunay.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.voronoi/v.delaunay.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,8 +1,8 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.delaunay</EM> uses an existing vector points map (<B>input</B>)
-to create a Delaunay triangulation vector map (<B>output</B>).
-<P>
+<em>v.delaunay</em> uses an existing vector points map (<b>input</b>)
+to create a Delaunay triangulation vector map (<b>output</b>).
+<p>
 
 <BR>
 Delaunay triangulation and Voronoi diagram example:
@@ -17,7 +17,7 @@
 </center>
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Commands used with the Spearfish dataset to create the above figure.
 <div class="code"><pre>
@@ -43,19 +43,19 @@
 </pre></div>
 
 
-<H2>REFERENCES</H2>
-<EM>Steve J. Fortune,  (1987).  A Sweepline Algorithm for
-    Voronoi Diagrams, Algorithmica 2, 153-174.</EM>
+<h2>REFERENCES</h2>
+<em>Steve J. Fortune,  (1987).  A Sweepline Algorithm for
+    Voronoi Diagrams, Algorithmica 2, 153-174.</em>
 
 
-<H2>SEE ALSO</H2>
-<EM>
-<A HREF="v.voronoi.html">v.voronoi</A>, 
-<A HREF="v.hull.html">v.hull</A>
-</EM>
+<h2>SEE ALSO</h2>
+<em>
+<a href="v.voronoi.html">v.voronoi</a>, 
+<a href="v.hull.html">v.hull</a>
+</em>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 James Darrell McCauley, Purdue University<br>
 GRASS 5 update, improvements: <a href=mailto:aaime at libero.it>Andrea Aime</a>,
  Modena, Italy<br>

Modified: grass/branches/develbranch_6/vector/v.voronoi/v.voronoi.html
===================================================================
--- grass/branches/develbranch_6/vector/v.voronoi/v.voronoi.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.voronoi/v.voronoi.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,11 +1,11 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>v.voronoi</EM> uses an existing vector points map (<B>input</B>) to create
-a Voronoi diagram (Thiessen polygons) in a new vector map (<B>output</B>).
-<P>
+<em>v.voronoi</em> uses an existing vector points map (<b>input</b>) to create
+a Voronoi diagram (Thiessen polygons) in a new vector map (<b>output</b>).
+<p>
 The bounds of the output map are limited by the current region.
 (see <em>g.region</em>)
-<P>
+<p>
 
 <BR>
 Voronoi diagram and Delaunay triangulation example:
@@ -20,16 +20,16 @@
 </center>
 
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 Voronoi diagrams may be used for nearest-neighbor flood filling.
 Give the centroids attributes (start with
-<em><A HREF="v.db.addcol.html">v.db.addcol</A></em>),
+<em><a href="v.db.addcol.html">v.db.addcol</a></em>),
 then optionally convert to a raster map with
-<em><A HREF="v.to.rast.html">v.to.rast</A></em>.
+<em><a href="v.to.rast.html">v.to.rast</a></em>.
 
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 Commands used with the Spearfish dataset to create the above figure.
 <div class="code"><pre>
@@ -55,24 +55,24 @@
 </pre></div>
 
 
-<H2>BUGS</H2>
+<h2>BUGS</h2>
 Only attribute table of field 1 is copied. 
 
 
-<H2>REFERENCES</H2>
-<EM>Steve J. Fortune,  (1987).  A Sweepline Algorithm for
-    Voronoi Diagrams, Algorithmica 2, 153-174.</EM>
+<h2>REFERENCES</h2>
+<em>Steve J. Fortune,  (1987).  A Sweepline Algorithm for
+    Voronoi Diagrams, Algorithmica 2, 153-174.</em>
 
 
-<H2>SEE ALSO</H2>
-<EM>
-<A HREF="g.region.html">g.region</A>,
-<A HREF="v.delaunay.html">v.delaunay</A>, 
-<A HREF="v.hull.html">v.hull</A>
-</EM>
+<h2>SEE ALSO</h2>
+<em>
+<a href="g.region.html">g.region</a>,
+<a href="v.delaunay.html">v.delaunay</a>, 
+<a href="v.hull.html">v.hull</a>
+</em>
 
 
-<H2>AUTHORS</H2>
+<h2>AUTHORS</h2>
 James Darrell McCauley, Purdue University<br>
 GRASS 5 update, improvements: <a href=mailto:aaime at libero.it>Andrea Aime</a>, Modena, Italy<br>
 GRASS 5.7 update: Radim Blazek

Modified: grass/branches/develbranch_6/vector/v.what/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.what/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.what/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -6,7 +6,7 @@
 <em>d.what.vect</em> module by removing all interactive code and
 modification of the output for easy parsing. Using the <em>-g</em> flag permits to
 generate script style output which is easily parsable.
-<P>
+<p>
 This module always reports standard acres, even when the location uses
 US Survey feet as the map unit.
 
@@ -22,7 +22,7 @@
 <h2>SEE ALSO</h2>
 
 <em>
-<a HREF="d.what.vect.html">d.what.vect</a>
+<a href="d.what.vect.html">d.what.vect</a>
 </em>
 
 

Modified: grass/branches/develbranch_6/vector/v.what.rast/description.html
===================================================================
--- grass/branches/develbranch_6/vector/v.what.rast/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/vector/v.what.rast/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,4 +1,4 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
 <em>v.what.rast</em> reads raster value for each point in the vector and updates <b>col</b> 
 column in vector attribute table by this value. The column should be type
@@ -7,12 +7,12 @@
 If more points have the same category, attribute value is set to NULL.
 If raster values is NULL, attribute value is set to NULL.
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
 <em>v.what.rast</em> operates on the attribute table. To modify the vector
 geometry instead, use <em>v.drape</em>.
 
-<H2>EXAMPLES</H2>
+<h2>EXAMPLES</h2>
 
 A) Reading values from raster map at position of vector points, writing these values
    into column of vector map:
@@ -21,7 +21,7 @@
 v.what.rast vect=pnts rast=elevation col=heights
 </pre></div>
 
-<P>
+<p>
 B) In case of a vector map without attached attribute table, first add
 a new attribute table. This table is then populated with values
 queried from the raster map:
@@ -43,18 +43,18 @@
 v.univar map=vectpoints col=myvalue type=point
 </pre></div>
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
-<EM>
+<em>
 <a href="v.db.addtable.html">v.db.addtable</a>,
-<a HREF="v.db.select.html">v.db.select</a>,
-<A HREF="v.drape.html">v.drape</a>,
-<A HREF="v.univar.html">v.univar</a>,
-<a HREF="v.rast.stats.html">v.rast.stats</a>,
+<a href="v.db.select.html">v.db.select</a>,
+<a href="v.drape.html">v.drape</a>,
+<a href="v.univar.html">v.univar</a>,
+<a href="v.rast.stats.html">v.rast.stats</a>,
 <a href="v.what.vect.html">v.what.vect</a>
-</EM>
+</em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 Radim Blazek
 
 <p>

Modified: grass/branches/develbranch_6/visualization/nviz/description.html
===================================================================
--- grass/branches/develbranch_6/visualization/nviz/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/visualization/nviz/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -65,6 +65,6 @@
 Please refer to the detailed manual inside NVIZ (HELP menu) or see the
 <a href="nviz/index.html">NVIZ Tutorial</a>.
 <HR>
-<P><a href="index.html">Main index</a> - <a href="full_index.html">Full index</a></P>
+<p><a href="index.html">Main index</a> - <a href="full_index.html">Full index</a></P>
 </body>
 </html>

Modified: grass/branches/develbranch_6/visualization/xganim/description.html
===================================================================
--- grass/branches/develbranch_6/visualization/xganim/description.html	2011-11-08 10:14:25 UTC (rev 49139)
+++ grass/branches/develbranch_6/visualization/xganim/description.html	2011-11-08 10:23:26 UTC (rev 49140)
@@ -1,6 +1,6 @@
-<H2>DESCRIPTION</H2>
+<h2>DESCRIPTION</h2>
 
-<EM>xganim</EM> is a tool for animating a series of GRASS raster
+<em>xganim</em> is a tool for animating a series of GRASS raster
 files. At startup, a graphics window is opened containing VCR-like
 button controls for: rewind, reverse play, step back, stop, step
 forward, forward play, loop, swing, slower, faster, show filenames,
@@ -8,14 +8,14 @@
 left of the controls. Each raster map is read into memory, then the
 animation is played once beginning to end. The user may then replay
 the series or play continuous animation by using the buttons.
-<P>
+<p>
 The user may define up to four "views", or sub-windows, to animate
 simultaneously. e.g., View 1 could be rainfall, View 2 flooded areas,
 View 3 damage to bridges or levees, View 4 other economic damage, all
 animated as a time series. There is an arbitrary limit of 400 files
 per view (400 animation frames), but the practical limit may be less
 depending on the window size and amount of available RAM.
-<P>
+<p>
 The environment variable XGANIM_SIZE is checked for a value to use as
 the dimension, in pixels, of the longest dimension of the animation
 window. If XGANIM_SIZE is not set, the animation size defaults to the
@@ -24,23 +24,23 @@
 the current GRASS region is maintained, independent of window size. 
 Resizing the window after the program is running will have no effect
 on the animation size.
-<P>
+<p>
 UNIX - style wild cards may be used with the command line version in
 place of a raster map name, but it must be quoted.
-<P>
+<p>
 If the number of files differs for each view, the view with the fewest
 files will determine the number of frames in the animation.
 
-<H2>EXAMPLE</H2>
+<h2>EXAMPLE</h2>
 
 <div class="code"><pre>
 export XGANIM_SIZE=800
 xganim view1="rain[1-9]","rain1[0-2]" view2="temp*"
 </pre></div>
 
-<H2>NOTES</H2>
+<h2>NOTES</h2>
 
-For wildcard matching, <EM>xganim</EM> understands whatever the shell 
+For wildcard matching, <em>xganim</em> understands whatever the shell 
 understands (as it invokes "ls" via the shell to expand wildcards). 
 E.g., a user can use "rast[0-9][0-9]" to match "rast00" through "rast99" inclusive.
 If the maps if interest have varying numbers of digits, multiple patterns
@@ -54,21 +54,21 @@
 to match rast0 through rast99 inclusive.
 
 
-<H2>BUGS</H2>
+<h2>BUGS</h2>
 On some displays that need to use private colormaps, the interface
 buttons may become difficult to see.
 
-<H2>SEE ALSO</H2>
+<h2>SEE ALSO</h2>
 
 <em><a href="d.slide.show.html">d.slide.show</a></em>,
 <em><a href="gm_animate.html">gis.m: ANIMATE TOOL</a></em>
 
-<H2>AUTHOR</H2>
+<h2>AUTHOR</h2>
 
 Bill Brown, U.S. Army Construction Engineering Research Laboratories
 
 <!-- left in for historical purposes :)
-<H2>NOTICE</H2>
+<h2>NOTICE</h2>
 This program is part of the contrib section of the GRASS distribution. 
 As such, it is externally contributed code that has not been examined
 or tested by the Office of GRASS Integration.

