[GRASS-SVN] r55533 - in grass-addons/grass6: HydroFOSS/r.interception HydroFOSS/r.snow display/d.frontline display/d.zoom.keys imagery/gipe/i.eb.wetdrypix imagery/i.landsat.dehaze imagery/i.points.auto misc/m.eigensystem raster/r.basin raster/r.convergence raster/r.fuzzy raster/r.fuzzy.system raster/r.out.maxent_swd raster/r.roughness raster/r.stream.order raster/r.viewshed raster/r.vol.dem

[svn_grass at osgeo.org]

Author: neteler
Date: 2013-03-27 02:03:58 -0700 (Wed, 27 Mar 2013)
New Revision: 55533

Modified:
   grass-addons/grass6/HydroFOSS/r.interception/description.html
   grass-addons/grass6/HydroFOSS/r.snow/description.html
   grass-addons/grass6/display/d.frontline/description.html
   grass-addons/grass6/display/d.zoom.keys/description.html
   grass-addons/grass6/imagery/gipe/i.eb.wetdrypix/description.html
   grass-addons/grass6/imagery/i.landsat.dehaze/description.html
   grass-addons/grass6/imagery/i.points.auto/description.html
   grass-addons/grass6/misc/m.eigensystem/m.eigensystem.html
   grass-addons/grass6/raster/r.basin/description.html
   grass-addons/grass6/raster/r.convergence/description.html
   grass-addons/grass6/raster/r.fuzzy.system/description.html
   grass-addons/grass6/raster/r.fuzzy/description.html
   grass-addons/grass6/raster/r.out.maxent_swd/r.out.maxent_swd.html
   grass-addons/grass6/raster/r.roughness/r.roughness.window.vector.html
   grass-addons/grass6/raster/r.stream.order/description.html
   grass-addons/grass6/raster/r.viewshed/r.viewshed.html
   grass-addons/grass6/raster/r.vol.dem/description.html
Log:
HTML demessified

Modified: grass-addons/grass6/HydroFOSS/r.interception/description.html
===================================================================
--- grass-addons/grass6/HydroFOSS/r.interception/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/HydroFOSS/r.interception/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -1,34 +1,3 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html>
-<head>
-<title>h.interception</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<link rel="stylesheet" href="grassdocs.css" type="text/css">
-</head>
-<body bgcolor="white">
-
-<img src="grass.smlogo.gif" alt="GRASS logo"><hr align=center size=6 noshade>
-
-<h2>NAME</h2> <b><I>h.interception </I></b>
-- computation of the water loss, drainage, and storage due 
-to <i>canopy rainfall interception</i>.
-
-<p><I>(GRASS Raster Program)</I>
-
-<h2>SYNOPSIS</h2>
-<b>h.interception</b><br>
-<b>h.interception</b> help<br>
-<b>h.interception</b>
-<b>LAI</b>=name
-<b>ETPls</b>=name
-<b>Co</b>=name
-<b>R</b>=name
-[<b>Ts</b>=name]
-<b>Vc</b>=name
-<b>IL</b>=name
-<b>D</b>=name
-<b>Ct</b>=name
-
 <h2>DESCRIPTION</h2>
 
 <p><em>h.interception</em> 
@@ -148,5 +117,3 @@
   J. of Hydrology, 228 3-4, 228-241. 
 
 <p><i>Last changed: $Date$</i>
-</body>
-</html>

Modified: grass-addons/grass6/HydroFOSS/r.snow/description.html
===================================================================
--- grass-addons/grass6/HydroFOSS/r.snow/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/HydroFOSS/r.snow/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -1,33 +1,3 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html>
-<head>
-<title>r.snow</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<link rel="stylesheet" href="grassdocs.css" type="text/css">
-</head>
-<body bgcolor="white">
-
-<img src="grass.smlogo.gif" alt="GRASS logo"><hr align=center size=6 noshade>
-
-<h2>NAME</h2> <b><I>r.snow </I></b>
-- computation of the snowpack water equivalent, 
-the snowamelt and the snowpack energy content.
-
-<p><I>(GRASS Raster Program)</I>
-
-<h2>SYNOPSIS</h2>
-<b>r.snow</b><br>
-<b>r.snow</b> help<br>
-<b>r.snow</b>
-<b>temp</b>=name
-<b>RAD</b>=name
-<b>rain</b>=name
-<b>in_snow</b>=name
-<b>in_energy</b>=name
-<b>out_snow</b>=name
-<b>out_energy</b>=name
-<b>out_snowmelt</b>=name
-
 <h2>DESCRIPTION</h2>
 
 <p><em>r.snow</em> 
@@ -146,6 +116,5 @@
   Utah Water Research Laboratory and USDA Forest Service Intermountain Research 
   Station.
 
-<p><i>Last changed: $Date$</i>
-</body>
-</html>
+<p>
+<i>Last changed: $Date$</i>

Modified: grass-addons/grass6/display/d.frontline/description.html
===================================================================
--- grass-addons/grass6/display/d.frontline/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/display/d.frontline/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -1,93 +1,12 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html>
-<head>
-<title>GRASS GIS manual: d.frontline</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<link rel="stylesheet" href="grassdocs.css" type="text/css">
-</head>
-<body bgcolor="white">
+<h2>DESCRIPTION</h2>
 
-<img src="grass_logo.png" alt="GRASS logo"><hr align=center size=6 noshade>
+<em>d.frontline</em> display different types of frontlines on the graphic
+monitor using d.graph (optionally save graph file and ps.map file).
 
-<h2>NAME</h2>
-<em><b>d.frontline</b></em>  - Display different types of frontlines on the graphic monitor using d.graph (optionally save graph file and ps.map file)
-<h2>KEYWORDS</h2>
-display, graphics, vector, symbology
-<h2>SYNOPSIS</h2>
-<b>d.frontline</b><br>
-<b>d.frontline help</b><br>
-<b>d.frontline</b> [-<b>ms</b>] <b>map</b>=<em>name</em>  [<b>where</b>=<em>string</em>]   [<b>hcolor</b>=<em>string</em>]   [<b>list</b>=<em>string</em>]   [<b>layer</b>=<em>integer</em>]   [<b>side</b>=<em>string</em>]  <b>interval</b>=<em>float</em> <b>symbol</b>=<em>string</em>  [<b>size</b>=<em>integer</em>]   [<b>line_color</b>=<em>string</em>]   [<b>fill_color</b>=<em>string</em>]   [<b>width</b>=<em>integer</em>]   [<b>graph</b>=<em>name</em>]   [<b>psmap</b>=<em>name</em>]   [--<b>verbose</b>]  [--<b>quiet</b>] 
+<h2>AUTHOR</h2>
 
-<h3>Flags:</h3>
-<DL>
-<DT><b>-m</b></DT>
-<DD>Select vector features interactively (with a mouse)</DD>
+...
 
-<DT><b>-s</b></DT>
-<DD>Save graphics commands in file(s) (for use with d.graph and/or ps.map)</DD>
+<p>
+<i>Last changed: $Date$</i>
 
-<DT><b>--verbose</b></DT>
-<DD>Verbose module output</DD>
-<DT><b>--quiet</b></DT>
-<DD>Quiet module output</DD>
-</DL>
-
-<h3>Parameters:</h3>
-<DL>
-<DT><b>map</b>=<em>name</em></DT>
-<DD>Name of input vector map</DD>
-
-<DT><b>where</b>=<em>string</em></DT>
-<DD>WHERE conditions of SQL query statement without 'where' keyword</DD>
-<DD>The WHERE statement for data filtering</DD>
-
-<DT><b>hcolor</b>=<em>string</em></DT>
-<DD>Highlight color for vector interactive selecting</DD>
-<DD>Standard color name or R:G:B</DD>
-<DD>Default: <em>yellow</em></DD>
-
-<DT><b>list</b>=<em>string</em></DT>
-<DD>Category number(s)</DD>
-<DD>Example: 1,3,7-9,13</DD>
-
-<DT><b>layer</b>=<em>integer</em></DT>
-<DD>Layer number. If -1, all layers are extracted.</DD>
-<DD>A single vector map can be connected to multiple database tables. This number determines which table to use.</DD>
-<DD>Default: <em>1</em></DD>
-
-<DT><b>side</b>=<em>string</em></DT>
-<DD>Side of the frontline</DD>
-<DD>Options: <em>left,right,both</em></DD>
-<DD>Default: <em>left</em></DD>
-
-<DT><b>interval</b>=<em>float</em></DT>
-<DD>Interval between symbols (in mapset units)</DD>
-
-<DT><b>symbol</b>=<em>string</em></DT>
-<DD>Type of symbol (<front/...> symbols will be produced by script at first use: front/arrow_int, front/arrow_ext, front/box, front/circle, front/half_box, front/line, front/triangle). May be any symbol from $GISBASE/etc/symbol/ or $MAPSET/symbol/ directories.</DD>
-
-<DT><b>size</b>=<em>integer</em></DT>
-<DD>Symbol size</DD>
-<DD>Default: <em>20</em></DD>
-
-<DT><b>line_color</b>=<em>string</em></DT>
-<DD>Color for line (standard color name or R:G:B)</DD>
-<DD>Default: <em>black</em></DD>
-
-<DT><b>fill_color</b>=<em>string</em></DT>
-<DD>Color for fill (standard color name or R:G:B)</DD>
-<DD>Default: <em>grey</em></DD>
-
-<DT><b>width</b>=<em>integer</em></DT>
-<DD>Width of symbol's line</DD>
-<DD>Default: <em>0</em></DD>
-
-<DT><b>graph</b>=<em>name</em></DT>
-<DD>Output file to save the d.graph commands</DD>
-
-<DT><b>psmap</b>=<em>name</em></DT>
-<DD>Output file to save the ps.map commands</DD>
-
-</DL>
-</body>
-</html>

Modified: grass-addons/grass6/display/d.zoom.keys/description.html
===================================================================
--- grass-addons/grass6/display/d.zoom.keys/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/display/d.zoom.keys/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -1,48 +1,12 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html>
-<head>
-<title>GRASS GIS manual: d.zoom.keys</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<link rel="stylesheet" href="grassdocs.css" type="text/css">
-</head>
-<body bgcolor="white">
+<h2>DESCRIPTION</h2>
 
-<img src="grass_logo.png" alt="GRASS logo"><hr align=center size=6 noshade>
+<em>d.zoom.keys</em> allows to change the current geographic region 
+settings interactively, with a keyboard. Use arrow keys to navigate, 
+"-" to make futher, "+" (without "Shift") to make closer.
 
-<h2>NAME</h2>
-<em><b>d.zoom.keys</b></em>  - Allows to change the current geographic region settings interactively, with a keyboard. Use arrow keys to navigate, "-" to make futher, "+" (without "Shift") to make closer.
-<h2>KEYWORDS</h2>
-display, zoom
-<h2>SYNOPSIS</h2>
-<b>d.zoom.keys</b><br>
-<b>d.zoom.keys help</b><br>
-<b>d.zoom.keys</b> [-<b>txr</b>]  [<b>mon</b>=<em>name</em>]   [<b>magn</b>=<em>number</em>]   [--<b>verbose</b>]  [--<b>quiet</b>] 
+<h2>AUTHOR</h2>
 
-<h3>Flags:</h3>
-<DL>
-<DT><b>-t</b></DT>
-<DD>Use navigation from terminal</DD>
+...
 
-<DT><b>-x</b></DT>
-<DD>Use navigation in X-monitor (requires <xev> and <xdotool>)</DD>
-
-<DT><b>-r</b></DT>
-<DD>Decrease region resolution during navigation</DD>
-
-<DT><b>--verbose</b></DT>
-<DD>Verbose module output</DD>
-<DT><b>--quiet</b></DT>
-<DD>Quiet module output</DD>
-</DL>
-
-<h3>Parameters:</h3>
-<DL>
-<DT><b>mon</b>=<em>name</em></DT>
-<DD>Name of graphics monitor to select (default is currently selected monitor).</DD>
-
-<DT><b>magn</b>=<em>number</em></DT>
-<DD>Magnification: default is "1" (1/10 of current region). "magn" > 1 gives positive magnification, "magn" < 1 gives negative one.</DD>
-
-</DL>
-</body>
-</html>
+<p>
+<i>Last changed: $Date$</i>

Modified: grass-addons/grass6/imagery/gipe/i.eb.wetdrypix/description.html
===================================================================
--- grass-addons/grass6/imagery/gipe/i.eb.wetdrypix/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/imagery/gipe/i.eb.wetdrypix/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -1,34 +1,3 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html>
-<head>
-<title>r.evapo.PM</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<link rel="stylesheet" href="grassdocs.css" type="text/css">
-</head>
-<body bgcolor="white">
-
-<img src="grass.smlogo.gif" alt="GRASS logo"><hr align=center size=6 noshade>
-
-<h2>NAME</h2> <b><I>i.eb.h_SEBAL95 </I></b>- computation of <i>sensible heat flux</i> [W/m2] after Bastiaanssen, 1995 in [1].
-
-<p><I>(GRASS Raster Program)</I>
-
-<h2>SYNOPSIS</h2>
-<b>i.eb.h_SEBAL95</b>
-<br>
-<b>i.eb.h_SEBAL95</b> help</br>
-<br>
-
-<b>i.eb.h_SEBAL95</b> <b>[ -qzn ]</b>
-
-<b>DEM</b>=name
-<b>T</b>=name
-<b>RH</b>=name
-<b>WS</b>=name
-<b>NSR</b>=name
-<b>Vh</b>=name
-<b>ETP</b>=name
-
 <h2>DESCRIPTION</h2>
 
 <p><em>i.eb.h_SEBAL95</em> given the vegetation height (hc), humidity (RU), 
@@ -134,13 +103,11 @@
       <a href=i.eb.h0.html>i.eb.h0</a>
 </ul>
 
-
-
 <h2>AUTHORS</h2>
-  <p>
-  <i>
-   <br>Yann Chemin, International Rice Research Institute, Los Banos, The Philippines.
-  </i>
+
+<i>
+Yann Chemin, International Rice Research Institute, Los Banos, The Philippines.
+</i>
   <p>Contact: <a href="mailto:y.chemin at cgiar.org"> Yann chemin</a>
 
 
@@ -156,6 +123,5 @@
        
   <p>[3] Penman, H. L. 1948. Natural evaporation from open water, 
   bare soil and grass. Proc. Roy. Soc. London, A193, pp. 120-146. 
-<p><i>Last changed: $Date$</i>
-</body>
-</html>
+<p>
+<i>Last changed: $Date$</i>

Modified: grass-addons/grass6/imagery/i.landsat.dehaze/description.html
===================================================================
--- grass-addons/grass6/imagery/i.landsat.dehaze/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/imagery/i.landsat.dehaze/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -30,10 +30,10 @@
 </pre></div>
 
 <center>
-<a href=lsat7_rgb_orig.jpg><img src="lsat7_rgb_orig_small.jpg"></a><br>
+<a href="lsat7_rgb_orig.jpg"><img src="lsat7_rgb_orig_small.jpg"></a><br>
 Original subset of Trentino, Italy (LANDSAT TM7, 13 Sep 1999). d.rgb view after i.landsat.rgb application.
 <p>
-<a href=lsat7_rgb_dehaze.jpg><img src="lsat7_rgb_dehaze_small.jpg"></a><br>
+<a href="lsat7_rgb_dehaze.jpg"><img src="lsat7_rgb_dehaze_small.jpg"></a><br>
 Dehazed subset of Trentino, Italy (LANDSAT TM7, 13 Sep 1999). d.rgb view after i.tasscap, i.landsat.dehaze, i.landsat.rgb application.
 </center>
 

Modified: grass-addons/grass6/imagery/i.points.auto/description.html
===================================================================
--- grass-addons/grass6/imagery/i.points.auto/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/imagery/i.points.auto/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -1,18 +1,3 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html>
-<head>
-<title>GRASS GIS manual: i.points.auto</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<link rel="stylesheet" href="grassdocs.css" type="text/css">
-</head>
-<body bgcolor="white">
-<img src="grass_logo.png" alt="GRASS logo"><hr align=center size=6 noshade>
-
-
-<h2>NAME</h2>
-<em><b>i.points.auto</b></em>
-
-
 <h2>DESCRIPTION</h2>
 
 This module allows a search of GCP's on two raster-maps with differents
@@ -81,16 +66,17 @@
 
 <em>i.points, i.vpoints, i.rectify, i.group</em> modules<BR>
 
-<pre>
-Proceedings of the FOSS/GRASS Users Conference 2004 - Bangkok, Thailand, 12-14 September 2004
-New image processing tools for GRASS
-Markus Neteler, Daniel Grasso, Ivan Michelazzi, Luca Miori, Stefano Merler, Cesare Furlanello
-</pre>
-<a href="http://gisws.media.osaka-cu.ac.jp/grass04/viewpaper.php?id=37">Neteler_Talk_2004.pdf</a>
+<ul>
+<li><b>M. Neteler</b>, D. Grasso, I. Michelazzi, L. Miori, S. Merler, and C. Furlanello.
+  New image processing tools for GRASS.
+  In <i>Proc. Free/Libre and Open Source Software for Geoinformatics:
+  GIS-GRASS Users Conference 2004, Sept. 12-14, Bangkok, Thailand</i>, 2004.
+  [ <a href="http://www.researchgate.net/publication/206279053_An_integrated_toolbox_for_image_registration_fusion_and_classification/file/522950f853a714ca446b91cead5923b8.pdf">PDF</a> ]
+</li>
+</ul>
 
+<h2>AUTHORS</h2>
 
-<h2>AUTHOR</h2>
-
 Based on <em>i.points</em> by
  Michael Shapiro, U.S.Army Construction Engineering Research Laboratory<BR>
 additions by
@@ -99,9 +85,3 @@
 
 <p>
 <i>Last changed: $Date$</i>
-
-<hr>
-<p><a href="index.html">Main index</a> - <a href="imagery.html">Imagery index</a> - <a href="full_index.html">Full index</a>
-<p>© 1999-2011 <a href="http://grass.osgeo.org">GRASS Development Team</a>
-</body>
-</html>

Modified: grass-addons/grass6/misc/m.eigensystem/m.eigensystem.html
===================================================================
--- grass-addons/grass6/misc/m.eigensystem/m.eigensystem.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/misc/m.eigensystem/m.eigensystem.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -1,37 +1,10 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html>
-<head>
-<title>GRASS GIS: m.eigensystem</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<link rel="stylesheet" href="grassdocs.css" type="text/css">
-</head>
-<body bgcolor="white">
-
-<img src="grass_logo.png" alt="GRASS logo"><hr align=center size=6 noshade>
-
-<h2>NAME</h2>
-
-<em><b>m.eigensystem</b></em>  - Computes eigen values and eigen vectors
-for square matricies.
-
-<br>
-
-<em>(GRASS Data Import/Processing Program)</em>
-
-<h2>SYNOPSIS</h2>
-
-<b>m.eigensystem < </b><em>inputfile </em>
-
 <h2>DESCRIPTION</h2>
 
 <em>m.eigensystem</em>
 determines the eigen values and eigen vectors for square matricies.
-The
-<em>inputfile</em>
-must have the following format:
-the first line contains an integer K
-which is the number of rows and columns in the matrix;
-the remainder of the file is the matrix, i.e.,
+The <em>inputfile</em> must have the following format:
+the first line contains an integer K which is the number of rows and
+columns in the matrix; the remainder of the file is the matrix, i.e.,
 K lines, each containing K real numbers.
 
 For example:<br>
@@ -43,7 +16,6 @@
           462.876649   480.411218   281.758307
           480.411218   513.015646   278.914813
           281.758307   278.914813   336.326645
-
 </pre>
 <p>
 
@@ -56,7 +28,6 @@
                    ... K lines ...
           W   real part imaginary part
                    ... K lines ...
-
 </pre>
 
 The
@@ -119,9 +90,7 @@
 of the eigen value to the sum of the eigen values.  Note that the output
 is not sorted by relative importance.
 
-
 <p>
-
 In general, the solution to the eigen system results in complex
 numbers (with both real and imaginary parts).  However, in the example
 above, since the input matrix is symmetric (i.e., inverting the rows and columns
@@ -132,7 +101,6 @@
 matrix of any data set is symmetric
 and thus has only real eigen values and vectors.
 
-
 <h2>PRINCIPLE COMPONENTS</h2>
 
 To perform principle component transformation on GRASS data layers,
@@ -146,25 +114,21 @@
 For example, to get the eigen vectors for 3 layers:
 
 <div class="code"><pre>
-   <b>(echo 3; r.covar map.1,map.2,map.3) | m.eigensystem</b>
+(echo 3; r.covar map.1,map.2,map.3) | m.eigensystem
 </pre></div>
 
 Note that since m.covar only outputs the matrix, we must manually prepend
 the matrix size (3) using the echo command.
 
-
 <p>
-
 Then, using the W vector, new maps are created:
 
-
 <div class="code"><pre>
-   <b>r.mapcalc</b> 'pc.1 = 21.2395*map.1 + 22.1470*map.2 + 14.7696*map.3'
-   <b>r.mapcalc</b> 'pc.2 =  2.9083*map.1 +  4.4599*map.2  - 10.8699*map.3'
-   <b>r.mapcalc</b> 'pc.3 =  1.8175*map.1  -  1.6232*map.2 -  0.1797*map.3'
+r.mapcalc "pc.1 = 21.2395*map.1 + 22.1470*map.2 + 14.7696*map.3"
+r.mapcalc "pc.2 =  2.9083*map.1 +  4.4599*map.2 - 10.8699*map.3"
+r.mapcalc "pc.3 =  1.8175*map.1 -  1.6232*map.2 -  0.1797*map.3"
 </pre></div>
 
-
 <h2>NOTES</h2>
 
 The source code for this program requires a Fortran compiler.
@@ -194,5 +158,3 @@
 
 <p>
 <i>Last changed: $Date$</i>
-</body>
-</html>

Modified: grass-addons/grass6/raster/r.basin/description.html
===================================================================
--- grass-addons/grass6/raster/r.basin/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/raster/r.basin/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -35,7 +35,7 @@
 of segments that connect a source to the outlet of the basin.</li>
 <li>The mean slope of main channel: it is calculated as follows<br>
 <center>
-<img src="r.basin1.gif" border=0 alt="mean slope">
+<img src="r.basin1.gif" border="0" alt="mean slope">
 </center>
 <br>
 where N is the topological diameter, i.e. the number of links in which the main
@@ -50,7 +50,7 @@
 of the length of the main channel.</li>
 <li>The concentration time (Giandotti, 1934):<br>
 <center>
-<img src="r.basin2.gif" border=0 alt="concentration time">
+<img src="r.basin2.gif" border="0" alt="concentration time">
 </center>
 <br>
 Where A is the area, L the length of the main channel and H the difference between

Modified: grass-addons/grass6/raster/r.convergence/description.html
===================================================================
--- grass-addons/grass6/raster/r.convergence/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/raster/r.convergence/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -1,41 +1,24 @@
-<h2>OPTIONS</h2>
-<dl>
-<dt><b>-s</b></dt>
-<dd>Increase convergence if slope value is high. Slope parameter radically slow down computation time, especially if window parameter is high. If slope is used addational modifier is used according to formula: sin(current)*sin(target) + cos(current)*cos(target). if slope of current and target cells are equal. The modifier is 1. If not, the modifier is applied with formula: acos(cos(convergence) * modifier)  </dd>
-<dt><b>-c</b></dt>
-<dd>use circular window instead of suqare (default)</dd>
-<p>
-<dt><b>input</b></dt>
-<dd>Digital elevation model. Data can be of any type and any projection. To calculate relief convergnece, r.convergence uses real distance which is recalculated into cell distance, according formula: <br><code>distance_between_current_cell_and_traget_cell/distance_between_current_cell_and_nearest_neighbour_cell.</code> It is important if convergence is calculated for large areas in LatLong projecton.
-</dd>
-<p>
-<dt><b>weights</b></dt>
-<dd>Parameter describing the reduction of the impact of the cell due to its distance, where distance in cells:
-<ul>
-<li><b>standard:</b>no decay
-<li><b>inverse:</b>distance modifier is calculated as 1/x
-<li><b>power:</b>distance modifier is calculated as 1/(x*x)
-<li><b>power:</b>distance modifier is calculated as 1/(x*x)
-<li><b>gentle:</b>distance modifier is calculated as 1/((1-x)/(1+x))
-</ul>
-<p>
-<dt><b>window</b></dt>
-<dd>window size. Must be odd. For now there is no limits in window size. r.convergence uses window size instead of classical radius for compatibility with other GRASS programs.</dd>
-
-<p>
-<dt><b>output</b></dt>
-<dd>Map of convergence index. The values ranges from -100 (max divergent, real peaks and ridges) by 0 (planar areas) to 100 (max convergent, real pits and channels). Classical convergence index presented with degrees (-90 to 90)</dd>
-
-
 <h2>DESCRIPTION</h2>
 <center>
-<h3>How convergence index is calculated (3 x 3 window):<h3>
-<img src=conv.png border=1><br>
+<b>How convergence index is calculated (3 x 3 window):</b>
+<img src="conv.png" border="1">
 </center>
-Convergence index is a terrain parameter which show the structure od the relief as a set of convergent areas (channels) and divergent areas (ridges). It represents the agreement of aspect direction of surrounding cells with the teoretical matrix direction. Convergence index is mean (or weighted mean if weights are used) aspect difference between real aspect and teoretical maximum divergent direction matrix representing ideal peak (see figure) minus 90 degres. So if there is maximum agreement with divergent matrix the convergence index is (0 - 90) * 10/9 = -100. If there is ideal sink (maximum convergence) the convergence index is (180 -90) * 10/9 = 100.
-Slope and aspect ere calculated internaly with the same formula as in r.slope.aspect
-Convergence index is very useful for analysis of lineamets especially represented by rigdes or chanell systems as well as valley recognition tool.
+
 <p>
+Convergence index is a terrain parameter which show the structure of the
+relief as a set of convergent areas (channels) and divergent areas (ridges).
+It represents the agreement of aspect direction of surrounding cells with
+the teoretical matrix direction. Convergence index is mean (or weighted
+mean if weights are used) aspect difference between real aspect and
+theoretical maximum divergent direction matrix representing ideal peak
+(see figure) minus 90 degres. So if there is maximum agreement with divergent
+matrix the convergence index is (0 - 90) * 10/9 = -100. If there is ideal
+sink (maximum convergence) the convergence index is (180 -90) * 10/9 = 100.
+Slope and aspect ere calculated internaly with the same formula as in 
+<em>r.slope.aspect</em>.
+Convergence index is very useful for analysis of lineaments especially
+represented by rigdes or chanell systems as well as valley recognition tool.
+<p>
 
 <h2>SEE ALSO</h2>
 
@@ -45,21 +28,22 @@
 <a href="r.neighbour.html">r.neighbour</a>,
 </em>
 
-
 <h2>REFERENCES</h2>
-</p>
+
 Claps, P., Fiorentino, M., Oliveto, G., (1994), <i>Informational entropy of fractal river networks</i>,
-Journal of Hydrology, 187(1-2), 145-156 .</p>
+Journal of Hydrology, 187(1-2), 145-156 .
 <p>
-Bauer J., Rohdenburg H., Bork H.-R., (1985), Ein Digitales Reliefmodell als Vorraussetzung fuer ein deterministisches Modell der Wasser- und Stoff-Fluesse, <i>IN: Bork, H.-R., Rohdenburg, H., Landschaftsgenese und Landschaftsoekologie, Parameteraufbereitung fuer deterministische Gebiets-Wassermodelle, Grundlagenarbeiten zu Analyse von Agrar-Oekosystemen</i>, 1-15.
+Bauer J., Rohdenburg H., Bork H.-R., (1985), Ein Digitales Reliefmodell als
+Voraussetzung fuer ein deterministisches Modell der Wasser- und Stoff-Fluesse,
+<i>IN: Bork, H.-R., Rohdenburg, H., Landschaftsgenese und Landschaftsoekologie,
+Parameteraufbereitung fuer deterministische Gebiets-Wassermodelle,
+Grundlagenarbeiten zu Analyse von Agrar-Oekosystemen</i>, 1-15.
 <p>
-Böhner J., Blaschke T., Montanarella, L. (eds.) (2008). SAGA Seconds Out. Hamburger Beiträge zur Physischen Geographie und Landschaftsökologie, 19: 113 s.</p>
+Böhner J., Blaschke T., Montanarella, L. (eds.) (2008). SAGA Seconds Out.
+Hamburger Beiträge zur Physischen Geographie und Landschaftsökologie, 19:113</p>
 
 <h2>AUTHOR</h2>
-Jarek  Jasiewicz
+Jarek Jasiewicz
 
-<HR>
-<p><a href="index.html">Main index</a> - <a href="raster.html">raster index</a> - <a href="full_index.html">Full index</a></P>
-<p>© 2003-2009 <a href="http://grass.OSGeo.org">GRASS Development Team</a></p>
-</body>
-</html>
+<p>
+<i>Last changed: $Date$</i>

Modified: grass-addons/grass6/raster/r.fuzzy/description.html
===================================================================
--- grass-addons/grass6/raster/r.fuzzy/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/raster/r.fuzzy/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -16,7 +16,7 @@
 <p>
 
 <h3>Fuzzy set definition:</h3>
-<img src=set.png border=1><br>
+<img src="set.png" border="1"><br>
 
 <dt><b>side</b></dt>
 <dd>This option indicates if the set is fuzzified on both sides (both),
@@ -39,7 +39,7 @@
 <p>
 
 <h3>Boundary definition:</h3>
-<img src=boundary.png border=1><br>
+<img src="boundary.png" border="1"><br>
 
 <dt><b>shape</b></dt>
 <dd>Optional shape modifier. Range from -1 to 1. The default value is 0 and
@@ -49,7 +49,7 @@
 <p>
 
 <h3>Impact of shape parameter on shape boundary:</h3>
-<img src=shape.png border=1><br>
+<img src="shape.png" border="1"><br>
 
 <dt><b>height</b></dt>
 <dd>Optional height modifier. Range from 0 to 1. The default value is 1 and
@@ -74,8 +74,6 @@
 a wide range of domains in which information is imprecise, such as most
 GIS operations.
 
-
-
 <h2>NOTES</h2>
 
 <h4>Calculation of boundary shape</h4>
@@ -157,7 +155,7 @@
 
 
 <h2>AUTHOR</h2>
-Jarek  Jasiewicz
+Jarek Jasiewicz
 
 <p>
 <i>Last changed: $Date$</i>

Modified: grass-addons/grass6/raster/r.fuzzy.system/description.html
===================================================================
--- grass-addons/grass6/raster/r.fuzzy.system/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/raster/r.fuzzy.system/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -305,7 +305,7 @@
 </pre>
 
 Resulting map should look like this below.
-<CENTER><img src=f_result.png border=1></CENTER><br>
+<CENTER><img src="f_result.png" border="1"></CENTER><br>
 
 <h2>SEE ALSO</h2>
 
@@ -339,6 +339,6 @@
 R~package version~1.0, URL http://CRAN.R-project.org/package=sets.<p>
 
 <h2>AUTHOR</h2>
-Jarek  Jasiewicz
+Jarek Jasiewicz
 
 <p><i>Last changed: $Date$</i>

Modified: grass-addons/grass6/raster/r.out.maxent_swd/r.out.maxent_swd.html
===================================================================
--- grass-addons/grass6/raster/r.out.maxent_swd/r.out.maxent_swd.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/raster/r.out.maxent_swd/r.out.maxent_swd.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -1,84 +1,3 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html>
-<head>
-<title>GRASS GIS manual: r.out.maxent_swd</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<link rel="stylesheet" href="grassdocs.css" type="text/css">
-</head>
-<body bgcolor="white">
-
-<img src="grass_logo.png" alt="GRASS logo"><hr align=center size=6 noshade>
-
-<h2>NAME</h2>
-<em><b>r.out.maxent_swd</b></em>  - Exports map data as input to MaxEnt in SWD format
-<h2>KEYWORDS</h2>
-raster, MaxEnt, species distribution modelling
-<h2>SYNOPSIS</h2>
-<b>r.out.maxent_swd</b><br>
-<b>r.out.maxent_swd help</b><br>
-<b>r.out.maxent_swd</b> [-<b>bz</b>]  [<b>alias_input</b>=<em>string</em>]   [<b>evp_maps</b>=<em>string</em>[,<i>string</i>,...]]   [<b>alias_names</b>=<em>string</em>]   [<b>alias_output</b>=<em>string</em>]   [<b>bgr_output</b>=<em>string</em>]   [<b>bgr_mask</b>=<em>string</em>]   [<b>specie_mask</b>=<em>string</em>[,<i>string</i>,...]]   [<b>specie_output</b>=<em>string</em>]   [<b>specie_name</b>=<em>string</em>]   [<b>nv</b>=<em>integer</em>]   [--<b>verbose</b>]  [--<b>quiet</b>] 
-
-<h3>Flags:</h3>
-<dl>
-<dt><b>-b</b></dt>
-<dd>Produce only background output</dd>
-
-<dt><b>-z</b></dt>
-<dd>Zoom computational region to species data</dd>
-<br>Setting this flag may speed up processing for very large regions and locally distributed
-species. But it may decrease processing time in other cases. Use with care.
-
-<dt><b>--verbose</b></dt>
-<dd>Verbose module output</dd>
-<dt><b>--quiet</b></dt>
-<dd>Quiet module output</dd>
-</dl>
-
-<h3>Parameters:</h3>
-<dl>
-<dt><b>alias_input</b>=<em>string</em></dt>
-<dd>File containg map and alias name(s) for environmental parameter(s)</dd>
-<br>This file should contain alias names in the first column and map names in the second column, separated by comma, 
-without header. It should look e.g. like this:<br>
-<em>
-alias_1,map_1<br>
-alias_2,map_2<br>
-...,...<br>
-</em>
-
-<dt><b>evp_maps</b>=<em>string[,<i>string</i>,...]</em></dt>
-<dd>Environmental parameter map(s)</dd>
-<br>Multiple maps containing the environmental parameter(s) to be used in MaxEnt.
-
-<dt><b>alias_names</b>=<em>string</em></dt>
-<dd>Alias names for environmental parameter</dd>
-<br>A list of names to be used as alias names for the environmental parameter map names.
-
-<dt><b>alias_output</b>=<em>string</em></dt>
-<dd>Save alias names for the environmental parameters to file</dd>
-<br>When using alias names for the environmental parameter map names, it is advantageous to save the alias names to file. 
-In this case the alias file can be used to re-translate the alias names back to map names when using the script r.maxent.lambdas.
-
-<dt><b>bgr_output</b>=<em>string</em></dt>
-<dd>Output SWD file for the environmental data of the background landscape</dd>
-
-<dt><b>bgr_mask</b>=<em>string</em></dt>
-<dd>Map to be used as mask for the background landscape</dd>
-
-<dt><b>specie_mask</b>=<em>string[,<i>string</i>,...]</em></dt>
-<dd>Raster map(s) of specie occurence</dd>
-
-<dt><b>specie_output</b>=<em>string</em></dt>
-<dd>Output SWD file for the specie(s) related environmental data</dd>
-
-<dt><b>specie_name</b>=<em>string</em></dt>
-<dd>Alias-name(s) for species to be used in MaxEnt SWD file instead of map names, separated by comma (default: map names).</dd>
-
-<dt><b>nv</b>=<em>integer</em></dt>
-<dd>Integer representing NO DATA cell value</dd>
-<dd>Default: <em>-9999</em></dd>
-
-</dl>
 <h2>DESCRIPTION</h2>
 The script is intended to produce a set of SWD files as input to MaxEnt 3.3.3e using r.stats.<br>
 <br>
@@ -107,18 +26,23 @@
 <h2>NOTES</h2>
 
 <h2>SEE ALSO</h2>
-r.stats<br>
+
+<em>
+<a href="r.stats.html">r.stats</a>
+</em>
+
 MaxEnt 3.3.3e <a href="http://www.cs.princeton.edu/~schapire/maxent/">http://www.cs.princeton.edu/~schapire/maxent/</a><br>
 Wilson, Peter D. 2009: Guidlelines for computing MaxEnt model output values from a lambdas file. (Avaliable at <a href="http://groups.google.com/group/MaxEnt">
 http://groups.google.com/group/MaxEnt</a>)
-Steven J. Phillips, Miroslav Dudík, Robert E. Schapire. 2004: A maximum entropy approach to species distribution modeling. In Proceedings 
+Steven J. Phillips, Miroslav Dudik, Robert E. Schapire. 2004: A maximum entropy approach to species distribution modeling. In Proceedings 
 of the Twenty-First International Conference on Machine Learning, pages 655-662, 2004.<br>
 Steven J. Phillips, Robert P. Anderson, Robert E. Schapire. 2006: Maximum entropy modeling of species geographic distributions. 
 Ecological Modelling, 190:231-259, 2006.<br>
-Jane Elith, Steven J. Phillips, Trevor Hastie, Miroslav Dudík, Yung En Chee, Colin J. Yates. 2011: A statistical explanation of MaxEnt 
+Jane Elith, Steven J. Phillips, Trevor Hastie, Miroslav Dudik, Yung En Chee, Colin J. Yates. 2011: A statistical explanation of MaxEnt 
 for ecologists. Diversity and Distributions, 17:43-57, 2011.
 
 <h2>AUTHOR</h2>
 Stefan Blumentrath, Norwegian Institute for Nature Research (NINA), <a href="http://www.nina.no">http://www.nina.no</a>
-</body>
-</html>
+
+<p>
+<i>Last changed: $Date$</i>

Modified: grass-addons/grass6/raster/r.roughness/r.roughness.window.vector.html
===================================================================
--- grass-addons/grass6/raster/r.roughness/r.roughness.window.vector.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/raster/r.roughness/r.roughness.window.vector.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -1,50 +1,48 @@
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html><head><title>r.roughness.window.vector</title>
-<meta http-equiv="Content-Type" content="text/html; charset=iso-8859-1">
-<link rel="stylesheet" href="grassdocs.css" type="text/css"></head>
+<h2>DESCRIPTION</h2>
 
-<body style="background-color: white;">
-<img style="width: 76px; height: 91px;" src="grass_logo.png" alt="GRASS logo"><hr align="center" noshade="noshade" size="6"><h2>NAME</h2>
-<em><b>r.roughness.window.vector</b></em> - Calculates surface roughness in a moving-window, as the orientation of vectors normal to surface planes.
-<h2>KEYWORDS </h2>
-raster, elevation, slope, aspect
-<h2>SYNOPSIS</h2>
-<span style="font-weight: bold;">r.roughness.window.vector</span><br style="font-weight: bold;">
-<span style="font-weight: bold;">r.roughness.window.vector help</span><br>
-<span style="font-weight: bold;">r.roughness.window.vector</span> <b>map</b>=<em>string</em>
-[<b>slope</b>=<em>string</em>] [<b>aspect</b>=<em>stri</em>ng]
-[<b>window</b>=<em>integer</em>] [<span style="font-weight: bold;">strength</span>=<em>string</em>]
-[<span style="font-weight: bold;">fisher</span>=<em>string</em>] [<b>compass</b>=<em>string</em>]
-[<b>colatitude</b>=<em>string</em>] [<span style="font-weight: bold;">xcos</span><b></b>=<em>string</em>] [<span style="font-weight: bold;">ycos</span>=<em>string</em>] [<span style="font-weight: bold;">zcos</span>=<em>string</em>] [--<b>overwrite</b>] [--<b>verbose</b>] [--<b>quiet</b>]
-<h3>Flags:</h3>
-<dl><dt><b>--overwrite</b></dt>
-<dd>Allow output files to overwrite existing files</dd>
-<dt><b>--verbose</b></dt>
-<dd>Verbose module output</dd>
-<dt><b>--quiet</b></dt>
-<dd>Quiet module output</dd>
-</dl><h3>Parameters:</h3>
-<dl><dt><b>map</b>=<em>string</em></dt>
-<dd>Input elevation raster map</dd>
-<dt><b>slope</b>=<em>string</em></dt>
-<dd>Input slope map</dd>
-<dt><b>aspect</b>=<em>integer</em></dt>
-<dd>Input aspect map</dd><dt><b>window</b>=<em>integer</em></dt>
-<dd>Moving-window size (uses <span style="font-style: italic;">r.neighbors</span>)</dd><dt><b>strength</b>=<em>string (optional)</em></dt>
-<dd>Output "vector strength" map </dd><dt><b>fisher</b>=<em>string (optional)</em><em></em></dt>
-<dd>Output "Fisher's K parameter" map </dd><dt><b>compass</b>=<em>string</em><em> (optional)</em></dt>
-<dd>Input compass aspect map</dd><dt><b>colatitude</b>=<em>string</em><em> (optional)</em></dt><dd>Input colatitude map</dd><dt><b>xcos</b>=<em>string</em><em> (optional)</em></dt><dd>Input <span style="font-style: italic;">x</span> directional cosine map </dd><dt><b>ycos</b>=<em>string</em><em> (optional)</em></dt><dd>Input <span style="font-style: italic;">y</span> directional cosine map </dd><dt><b>zcos</b>=<em>string</em><em> (optional)</em></dt><dd>Input <span style="font-style: italic;">z</span> directional cosine map </dd></dl><h2>DESCRIPTION</h2>
+<em>r.roughness.window.vector</em> calculates surface roughness in a
+moving-window, as the orientation of vectors normal to surface planes.
+<p>
 In this script surface roughness is taken as the dispersion of vectors
-normal to surface areas (pixels). Normal vectors are defined by
-slope and aspect.<br><br>This script will create several temporary
+normal to surface areas (pixels). Normal vectors are defined by
+slope and aspect.
+<p>
+This script will create several temporary
 maps, for the directional cosines in each direction (x,y,z), for the
-sum of these cosines and vector strengh.<br><br>The options <span style="font-style: italic;">compass</span>, <span style="font-style: italic;">colatitude</span>, <span style="font-style: italic;">xcos</span>, <span style="font-style: italic;">ycosm</span> and <span style="font-style: italic;">zcos</span>
+sum of these cosines and vector strenght.
+<p>
+The options <it>compass</it>, <it>colatitude</it>, <it>xcos</it>,
+<it>ycosm</it> and <it>zcos</it>
 are created as temporary files each time the script is run. If the user
 wants to create several map (with different window sizes, for
-instance), it is recommended to create those maps with <span style="font-style: italic;">r.mapcalc</span> and use them as input:<br><br><span style="font-style: italic;">r.mapcalc compass = "if(aspect==0,0,if(aspect < 90, 90-aspect, 360+90-aspect))"</span><br style="font-style: italic;"><br style="font-style: italic;"><span style="font-style: italic;">r.mapcalc colatitude = "90 - slope"</span><br style="font-style: italic;"><br style="font-style: italic;"><span style="font-style: italic;">r.mapcalc xcos = "sin(colatitude)*cos(compass)"</span><br style="font-style: italic;"><br style="font-style: italic;"><span style="font-style: italic;">r.mapcalc ycos = "sin(colatitude)*sin(compass)"</span><br style="font-style: italic;"><br style="font-style: italic;"><span style="font-style: italic;">r.mapcalc zcos = "cos(colatitude)"</span><br style="font-style: italic;"><br><br><br>If the user does not specify the output maps names, they will be set to <span style="font-style: i
 talic;"><br><br>INPUT_MAP_vector_strength_NxN</span> <br>and<br><span style="font-style: italic;">INPUT_MAP_fisher_K_NxN</span><br><br>where N is the window size.<p>
-</p><h2>REFERENCES</h2><p>Hobson, R.D., 1972. Surface roughness in topography: quantitative approach. In: Chorley, R.J. (ed) <span style="font-style: italic;">Spatial analysis in geomorphology</span>. Methuer, London, p.225-245.<br></p><p>McKean, J. & Roering, J., 2004. <span style="font-style: italic;">Objective landslide detection and surface morphology mapping using high-resolution airborne laser altimetry. Geomorphology</span>, 57:331-351</p><h2>AUTHOR</h2>Carlos Henrique Grohmann<br>Institute of Geosciences, University of São Paulo, Brazil.
+instance), it is recommended to create those maps with 
+<it>r.mapcalc</it> and use them as input:
+
+<p>
+r.mapcalc "compass    = if(aspect==0.,0.,if(aspect < 90., 90. - aspect, 360. + 90. - aspect))"
+r.mapcalc "colatitude = 90. - slope"
+r.mapcalc "xcos       = sin(colatitude)*cos(compass)"
+r.mapcalc "ycos       = sin(colatitude)*sin(compass)"
+r.mapcalc "zcos       = cos(colatitude)"
+
+If the user does not specify the output maps names, they will be set to 
+<it>INPUT_MAP_vector_strength_NxN</it> and<it>INPUT_MAP_fisher_K_NxN</it>
+<br>
+where N is the window size.
+
+<h2>REFERENCES</h2>
+
+Hobson, R.D., 1972. Surface roughness in topography: quantitative approach.
+In: Chorley, R.J. (ed) <it>Spatial analysis in geomorphology</it>. Methuer,
+London, p.225-245.
+<p>
+McKean, J. & Roering, J., 2004. <it>Objective landslide detection and
+surface morphology mapping using high-resolution airborne laser altimetry
+Geomorphology</it>, 57:331-351
+
+<h2>AUTHOR</h2>
+
+Carlos Henrique Grohmann<br>
+Institute of Geosciences, University of São Paulo, Brazil.
+
 <p><i>Last changed: $Date$</i>
-</p><hr><p><a href="index.html">Main
-index</a> - <a href="raster.html">raster index</a>
-- <a href="full_index.html">Full index</a></p>
-</body></html>

Modified: grass-addons/grass6/raster/r.stream.order/description.html
===================================================================
--- grass-addons/grass6/raster/r.stream.order/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/raster/r.stream.order/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -71,7 +71,7 @@
 
 <h3>Stream ordering example:</h3>
 <center>
-<img src="r_stream_order_orders.png" border=1><br>
+<img src="r_stream_order_orders.png" border="1"><br>
 </center>
 
 <p>
@@ -223,28 +223,25 @@
 
 
 <h2>REFERENCES</h2>
-Claps, P., Fiorentino, M., Oliveto, G., (1994), <i>Informational entropy of
-fractal river networks</i>,
-Journal of Hydrology, 187(1-2), 145-156 .</p>
-Hack, J., (1957), <i>Studies of longitudinal stream profiles in Virginia and
-Maryland</i>, 
-<b>U.S. Geological Survey Professional Paper</b>, 294-B<p>
-Horton, R. E. (1945), <i>Erosional development of streams and their drainage
+<ul>
+<li> Claps, P., Fiorentino, M., Oliveto, G., (1994), <i>Informational entropy of
+fractal river networks</i>, Journal of Hydrology, 187(1-2), 145-156 .</li>
+<li> Hack, J., (1957), <i>Studies of longitudinal stream profiles in Virginia and
+Maryland</i>, <b>U.S. Geological Survey Professional Paper</b>, 294-B</li>
+<li> Horton, R. E. (1945), <i>Erosional development of streams and their drainage
 basins: hydro-physical approach to quantitative morphology</i>, 
-<b>Geological Society of America Bulletin</b> 56 (3): 275-370<p>
-Shreve, R., <i>Statistical Law of Stream Numbers</i>, <b>J. Geol.</b>, 74,
-(1966), 17-37.<p>
-Strahler, A. N. (1952), <i>Hypsometric (area-altitude) analysis of erosional
-topology</i>, 
-<b>Geological Society of America Bulletin</b> 63 (11): 1117–1142<p>
-Strahler, A. N. (1957), <i>Quantitative analysis of watershed
-geomorphology</i>, 
-<b>Transactions of the American Geophysical Union</b> 8 (6): 913–920.<p>
+ <b>Geological Society of America Bulletin</b> 56 (3): 275-370</li>
+<li> Shreve, R., <i>Statistical Law of Stream Numbers</i>, <b>J. Geol.</b>, 74,
+(1966), 17-37.</li>
+<li> Strahler, A. N. (1952), <i>Hypsometric (area-altitude) analysis of erosional
+topology</i>, <b>Geological Society of America Bulletin</b> 63 (11): 1117–1142</li>
+<li> Strahler, A. N. (1957), <i>Quantitative analysis of watershed
+geomorphology</i>, <b>Transactions of the American Geophysical Union</b>,
+8(6): 913–920.</li>
+</ul>
 
+<h2>AUTHORS</h2>
+Jarek Jasiewicz, Markus Metz
 
-
-<h2>AUTHOR</h2>
-Jarek  Jasiewicz, Markus Metz
-
 <p><i>Last changed: $Date$</i>
 

Modified: grass-addons/grass6/raster/r.viewshed/r.viewshed.html
===================================================================
--- grass-addons/grass6/raster/r.viewshed/r.viewshed.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/raster/r.viewshed/r.viewshed.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -160,8 +160,8 @@
 <p>
 <table width=50% align=center>
   <tr>
-      <th><img src="sweep1.png" width=200 alt="[SDF]" border=0></th>
-      <th><img src="sweep2.png" width=200 alt="[SDF]" border=0></th>
+      <th><img src="sweep1.png" width="200" alt="[SDF]" border="0"></th>
+      <th><img src="sweep2.png" width="200" alt="[SDF]" border="0"></th>
   </tr>
   <tr>	
     <th>The sweep-line.</th>

Modified: grass-addons/grass6/raster/r.vol.dem/description.html
===================================================================
--- grass-addons/grass6/raster/r.vol.dem/description.html	2013-03-26 21:18:08 UTC (rev 55532)
+++ grass-addons/grass6/raster/r.vol.dem/description.html	2013-03-27 09:03:58 UTC (rev 55533)
@@ -53,12 +53,12 @@
 interpolation until the next DEM or the region's margin.
 
 <center>
-<img src="r_vol_dem_layerdown.jpg" border=1><br>
+<img src="r_vol_dem_layerdown.jpg" border="1"><br>
 Layer down NULL filling behaviour of <em>r.vol.dem</em>
 </center>
 <p>
 <center>
-<img src="r_vol_dem_layerup.jpg" border=1><br>
+<img src="r_vol_dem_layerup.jpg" border="1"><br>
 Layer up NULL filling behaviour of <em>r.vol.dem</em>
 </center>
 
@@ -127,7 +127,7 @@
 <p>
 <a href="http://undine-lieberwirth.info/?page_id=8">Screenhot gallery</a>
 
-<h2> AUTHOR</h2>
+<h2>AUTHOR</h2>
 
 Software: Benjamin Ducke
 <p>