--- /dev/null
+/*!
+
+\page a3d_management_page Managing 3D Presentations
+
+After the 3D presentation is created, it can be edited or submitted to
+various post-processing operations.
+
+The operations connected with the presentation-handling in the VTK
+Viewer and in the Object Browser via context menus are described in
+\subpage viewing_3d_presentations_page "Viewing 3D presentations" section.
+
+Some more specific functionalities are available via dockable windows
+accessed from the Main menu <b>View -> Windows </b>
+
+\image html presentation1.png
+
+<ul>
+<li><b> Object Browser</b> - hides and displays the Object browser
+used for management of objects created or imported into Salome application</li>
+<li><b> Python Console</b> - hides and displays the Python console,
+which is a window for Pytho0n interpreter.</li>
+<li> \subpage slider_page - used for animation of presentations created on
+all timestamps of a field.</li>
+<li> \subpage sweeping_page "Sweep" - used for pseudo-animation of presentations created on
+one timestamp of a field.</li>
+<li> \subpage clipping_page "Clipping Planes" - allows to create cross-section of
+the presentation.</li>
+<li> \subpage selection_info_page "Selection" - allows to view the
+attributes of elements displayed in the viewer.</li>
+<li> \subpage feature_edges_page "Feature Edges" - allows to choose the
+edges selectable for <b>Feature Edges</b> functionality.</li>
+</ul>
+
+Other important presentation management functionalities characreristic for Post-Pro
+module are:
+<ul>
+<li> \subpage animating_page - another way of animation of
+presentations on fields. </li>
+<li> \subpage translate_presentation_page - displacement of
+presentations in the viewer.</li>
+<li> \subpage recording_page - allows to dump user actions in an AVI
+file. </li>
+<li> \subpage navigation_page - about advanced user operation modes in the
+VTK viewer (using keyboard only, mouse only or spacemouse). </li>
+<li> \subpage perspective_view_page and the possibility to set camera
+position and focal point of the scene manually provide flexibility of
+viewing the presentation.</li>
+</ul>
+
+
+
+*/
+
--- /dev/null
+/*!
+
+\page a3d_presentations_page 3D presentations
+
+\image html introduction.png "Example of a 3D presentation"
+
+\b Post Pro module provides several types of 3D presentations,
+visualizing the structure of MED objects. All
+presentations can be seen only in Salome VTK Viewer (ALT+K).
+\n All presentation types could be divided in two main groups:
+<ul>
+ <li>\subpage presentation_of_submesh_page "3D presentation on
+ submesh" - can be createsd on a submesh. </li>
+ <li>\subpage field_presentations_page "3D presentations on
+ fields" - can be created on fields and timestamps</li>
+</ul>
+
+Created presentations can be edited, animaded, recorded and viewed in
+different modes. The whole range of such operations is described in \subpage 3d_management_page "Managment of presentations" section.
+
+*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page a3d_presentations_page 3D presentations
-
-<ul>
-<li>\subpage presentation_of_submesh_page</li>
-<li>\subpage field_presentations_page</li>
-<ul>
-<li>\ref creating_field_presentations_page</li>
-<li>\ref scalar_map_page</li>
-<li>\ref iso_surfaces_page</li>
-<li>\ref cut_lines_page</li>
-<li>\ref cut_planes_page</li>
-<li>\ref deformed_shape_page</li>
-<li>\ref vectors_page</li>
-<li>\ref stream_lines_page</li>
-<li>\ref scalar_map_on_deformed_shape_page</li>
-<li>\ref plot_3d_page</li>
-<li>\ref animating_page</li>
-<li>\ref gauss_points_presentations_page</li>
-<ul>
-<li>\ref creating_gauss_points_presentation_page</li>
-<li>\ref primitive_types_page</li>
-<li>\ref types_of_gauss_points_presentations_page</li>
-<li>\ref scalar_bar_page</li>
-<li>\ref gauss_viewer_page</li>
-<li>\ref navigation_in_gauss_viewer_page</li>
-<li>\ref picking_page</li>
-<li>\ref segmentation_page</li>
-<li>\ref recording_in_gauss_viewer_page</li>
-</ul>
-</ul>
-<li>\subpage viewing_3d_presentations_page</li>
-<ul>
-<li>\ref viewing_3d_presentations_intro_page</li>
-<li>\ref translate_presentation_page</li>
-<li>\ref clipping_page</li>
-<li>\ref sweeping_page</li>
-<li>\ref selection_info_page</li>
-</ul>
-</ul>
-
-*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page about_tables_page About tables
-
-\n Functionality of \b Post-Pro component allows to import data tables
-and display them in a special table viewer. \b Tables represent
-column-ranged data with \b units and \b column and <b>row titles</b> (\ref displaying_tables_page "see also").
-
-\note Tables can be \b rarefied - some of the cells may be empty,
-without any values.
-
-In \b Post-Pro there are three methods to import tables:
-<ul>
-<li>\ref importing_exporting_tables_page "Importing tables from *.xls, *.txt or *.tab files, which have been previously created"</li>
-
-<li>\ref creating_tables_from_cut_lines_page "Creating tables on the basis of Cut Lines presentations"</li>
-
-<li>Importing tables with the help of a special Python script (not described in this reference manual)</li>
-</ul>
-
-*/
\ No newline at end of file
/*!
-\page animating_page Animating presentations
+\page animating_page Animation
+
+\image html animatdef.jpg "Example of Animation presentations for deformed shape"
\n In \b Post-Pro module you can generate real-time animation of
fields. In comparison with sweeping, animations are created on the
base of frames, displaying field presentations generated on \b EVERY
-Time Stamp of your field. So, the frame displaying the field
-presentation created on the base of the first time stamp will begin
+timestamp of your field. So, the frame displaying the field
+presentation created on the base of the first timestamp will begin
your animation and the frame displaying the field presentation created
-on the base of the last time stamp will end it. In sweeping <b>ONLY
-ONE</b> Time Stamp is used for its generation.
+on the base of the last timestamp will end it. In sweeping <b>ONLY
+ONE</b> timestamp is used for its generation.
In the case of animation of several fields <b>Parallel Animation</b>
will display the animations simultaneously, while <b>Successive
Animation</b> will display them one after another.
\n In the case of <b>Parallel Animation</b> you can set different
kinds of presentations for each of the selected fields. This animation
-type also requires that the number of time stamps > 1 and is the same
+type also requires that the number of timestamps > 1 and is the same
for all animated fields.
\n For <b>Successive Aimation</b> the kind of presentation should be
the same for all selected fields, which means that it is not possible
to select a field from the list. It is also necessary that the number
-of time stamps > 0 and the number of components is the same for all
+of timestamps > 0 and the number of components is the same for all
animated fields.
-<em>To generate an animation:</em>
+\ref slider_page functionality also allows to create real-time
+animation on every time stamp of the field. This is another,
+somewhat more user-friendly, implementation of animation on fields.
+
+<em>To generate an Animation:</em>
\par
<ol>
<li>Right-click on the field in the Object Browser.</li>
<b>Publish to Study</b> - saves your animation in the study and
presents it in the Object Browser.
-The following picture shows an animation of deformation of an object:
-
-\image html animatdef.jpg
-
*/
+++ /dev/null
-/*!
-
-\page scalar_map_on_deformed_shape_page Deformed Shape and Scalar Map presentation
-
-\n <b>Deformed Shape and Scalar Map</b> presentation is a mix of the
-two: \ref scalar_map_page "Scalar Map" and \ref deformed_shape_page
-"Deformed Shape". In this presentation the Scalar Map is built on a
-Deformed Shape.
-
-<em>To create a Deformed Shape and Scalar Map presentation:</em>
-\par
-– Right-click on one of the time stamps of the field in the
-Object browser and from the pop-up menu choose <b>Deformed Shape and
-Scalar Map</b>, or
-\n – Click on one of the time stamps of the field in the Object
-browser and select from the main menu <b>Visualization > Deformed Shape and
-Scalar Map</b>, or click <em>"Deformed Shape and Scalar Map"</em>
-icon in the <b>Visualization Toolbar</b>.
-
-\image html image40.gif
-<center><em>"Deformed Shape and Scalar Map" icon</em></center>
-
-\image html smds1.png
-
-\par
-<b>Deformed Shape and Scalar Map</b> tab allows you to set additional
-parameters of your Deformed Shape and Scalar Map presentation:
-<ul>
-<li><b>Scale Factor:</b> visualization scaling of all vector values
-applied to the cells of the mesh.</li>
-<li><b>Fields:</b> allows to choose type of fields on which the
-presentation will be built.</li>
-<li><b>Time Stamp:</b> allows to choose the time stamp on which the
-presentation will be built.</li>
-</ul>
-<b>Scalar Bar</b> tab allows to define the parameters of the scalar
-bar displayed with this presentation (\ref scalar_map_page "see also").
-
-After you have finished with setting these parameters, click \b
-OK. Your presentation will be immediately displayed in the viewer.
-
-Compare ordinary Scalar Map presentation:
-
-\image html smds-example1.png
-
-with Deformed Shape and Scalar Map presentation:
-
-\image html smds-example.png
-
-*/
\ No newline at end of file
\page clipping_page Clipping
-\n Using this menu you can create cross-section views (clipping planes) of your presentation.
+\n <b>Clipping planes</b> allow to create cross-section views of presentations.
-To start, click on the \b New button. A new clipping plane will be
+Salome features two distinct types of clipping planes: \b Global and
+\b Local.
+<ul>
+<li> <b>Global Cliping Planes</b> are defined in the VTK viewer and can
+be automatically applied to all Post-Pro presentations shown in the
+viewer (or not applied depending on the user's choice).</li>
+<li> <b>Local Clipping Planes</b> are defined directly for the given
+presentation </li>
+</ul>
+
+To define <b>Global Cliping Planes</b> in the Main Menu select <b>
+View -> Windows -> Clipping Planes.
+</b>
+
+The following dialog will appear as a dockable window.
+
+\image html clipping3.png
+
+The list of \b Presentations allows choosing for display from all
+presentations currently created or loaded in the study.
+The list of <b>Associated planes</b> contains all global planes
+created by the user.
+<ul>
+<li>The checkbox near the name of the plane defines the plane as global. </li>
+<li>The checkbox \b Active makes the Plane active (used together with
+<b>Show planes preview</b>, <b>Deactivate planes</b> and <b>Auto
+Apply</b> buttons).</li>
+</ul>
+
+\b New and \b Edit buttons call the dialog for creation and
+modification of clipping planes.
+
+\image html clipping4.png
+
+<ul>
+<li> <b> Name of the plane </b> - allows to input the custom name of
+the plane (Plane n) by default</li>
+<li> \b Origin - allows to define the point of origin of the clipping
+plane.</li>
+<li> \b Direction - allows to define the direction of the plane in
+relation to the coordinate planes OX OY and OZ, from 0 - parallel to
+the plane to 1 - perpendicular to the plane.</li>
+<li> \b Global checkbox - allows to make the created plane global by
+default, i.e. the the checkbox near the name of the plane will be
+always checked, otherwise the created presentation is local, yet
+it is possible to check the respective checkbox and make it global.</li>
+</ul>
+
+\b Delete button removes the selected plane from the list of planes.
+
+<b>Show planes preview</b> checkbox displays active planes in the Viewer.
+<b>Deactivate planes</b> checkbox - if checked, unchecks \b Active
+checkboxes for all planes, revealing the entire presentation.
+<b>Auto Apply</b> checkbox - automatically hides from view the part of
+object truncated by the newly created plane.
+
+Note that the clipping planes defined in this way depend on the whole
+MED object and are stored in the dedicated Object Browser folder.
+
+\image html clipping5.png
+
+The described functionality allows to create both local and global
+clippind planes, however, there is another way to create local
+clipping planes, depending on the presentations.
+
+To create a local clipping plane on a presentation, select the
+presentation in the viewer or in the Object Browser, right-click on it
+and select <b>Clipping plane</b> from the context menu.
+
+\image html clipping1.png
+
+Click on the \b New button. A new clipping plane will be
immediately displayed in 3D Viewer. You can create as many clipping
planes as you need. To delete an unwanted plane, select it in the list of
planes and click \b Delete button.
-\image html clipping1.png
-
Now you can define the parameters of your cross-section. You can
define them either in <b>Non Structured</b> or in <b>IJK
(Structured)</b> way.
+++ /dev/null
-/*!
-
-\page creating_field_presentations_page Creating field presentations
-
-<br><em>To create a field presentation (\ref fields_anchor "see also"):</em>
-\par
-Right-click on one of the time stamps of this field in the Object
-browser and choose the required type of presentation from the
-following pop-up menu:
-
-\image html image20.png
-
-\note In \b Post-Pro fields may contain both scalar and vector values,
-applied to the cells of the submesh, as well as \b ONLY scalar
-values. It is not possible to make a vector presentation for fields
-containing only scalar values.
-
-\par
-For fields containing only scalar values, you can create the following
-types of presentation:
-
-\image html image21.png
-
-\par
-Click on one of the time stamps of this field in the Object browser
-and select the required type of presentation from the \b Visualization
-submenu of the main menu or from the <b>Visualization Toolbar</b>.
-
-The new field presentation will be located in the time stamp subfolder in the Object Browser and displayed
-
-*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page creating_gauss_points_presentation_page Creating a Gauss Points Presentation
-
-\n <em>To create a Gauss Points presentation:</em>
-\par
-– Right-click on one of the time stamps of the field in the
-Object browser and from the pop-up menu choose <b>Gauss Points</b>, or
-\n – Click on one of the time stamps of the field in the Object
-browser and select from the main menu <b>Visualization > Gauss
-Points</b>, or click <em>"Gauss Points"</em> icon in the
-<b>Visualization Toolbar</b>.
-
-\image html image29.gif
-<center><em>"Gauss Points" icon</em></center>
-
-\image html image31.jpg
-
-\par
-Now you can choose the \ref types_of_gauss_points_presentations_page
-"Type" of your Gauss Points presentation and \ref primitive_types_page
-"Primitives" used for visualisation of the points and set their properties.
-\n You can also change the \ref scalar_bar_page "Scalar Bar" properties.
-<br><br>
-To exit the dialog and apply choices press \b OK button, or press \b
-CANCEL button to quit.
-
-*/
\ No newline at end of file
--- /dev/null
+/*!
+
+\page creating_plot2d_page Creating Plot 2D Presentations
+
+\n <em>To create a Plot 2D based on a definite curve:</em>
+<ol>
+<li>Select the Plot 2D Viewer: from the main menu choose <b>Window > New
+Window > Plot2d View</b>.</li>
+
+<li>In the Object Browser right-click on this curve line and from the
+pop-up menu select \b Display item.</li>
+</ol>
+
+<br><em>To create a Plot 2D presentation based on several curves:</em>
+<ol>
+<li>Select Plot 2D Viewer: from the main menu choose <b>Window > New
+Window > Plot2d View</b></li>
+
+<li>In the Object Browser right-click on the \b Post-Pro object and
+from the pop-up menu select <b>Create Plot2D View</b>.</li>
+
+<li>Right-click on the name of this container in the Object Browser
+and select \b Edit item. The following dialog box will appear:
+
+\image html editplot2dpresentation.png
+
+This box contains two windows:
+\par
+– The left window displays a list of curve lines, which have been
+created in the study.
+\n\n – The right window displays a list of curve lines contained in
+this particular container. These curves will be used for creation of the
+XY plot.
+
+To move a definite curve line from the study into the container,
+select it in the left window of this dialog box and click the button:
+
+\image html image15.gif
+
+To move a definite curve line from the container back into the study,
+select it in the right window of this dialog box and click the button:
+
+\image html image16.gif
+
+After having chosen the curve lines, which will compose your XY plot,
+click \b OK button to quit this dialog box. In the Object Browser the
+references to the selected curve lines will be created under your
+container.
+</li>
+
+<li>Right-click on the name of the container in the Object Browser and
+select \b Display button. A Plot 2D presentation consisting of the previously
+selected curve lines, will be displayed in the viewer:
+
+\image html image12.gif
+
+</li>
+</ol>
+
+*/
+++ /dev/null
-/*!
-
-\page creating_tables_from_cut_lines_page Creating tables from Cut Lines presentations
-
-\n In \b Post-Pro you can create a table, which will be composed of
-the scalar values applied to the cells forming a <b>Cut Lines</b>
-presentation.
-
-<em>To create a table from Cut Lines presentation:</em>
-<ol>
-<li>Create a \ref cut_lines_page "Cut Lines presentation".</li>
-
-<li>In the Object Browser or in the viewer right-click on your
-presentation and from the pop-up menu select <b>Create Table</b>.</li>
-</ol>
-
-Your new table will be created and displayed in the Object Browser.
-
-*/
+++ /dev/null
-/*!
-
-\page creating_xy_plots_page Creating XY plots
-
-\n <em>To create a XY plot based on one definite curve:</em>
-<ol>
-<li>Select Plot2d viewer: from the main menu choose <b>Window > New
-Window > Plot2d View</b>.</li>
-
-<li>In the Object Browser right-click on this curve line and from the
-pop-up menu select \b Display item.</li>
-</ol>
-
-<br><em>To create a XY plot based on several curves:</em>
-<ol>
-<li>Select Plot2d viewer: from the main menu choose <b>Window > New
-Window > Plot2d View</b></li>
-
-<li>In the Object Browser right-click on the \b Post-Pro object and
-from the pop-up menu select <b>Create Plot2D View</b>.</li>
-
-<li>Right-click on the name of this container in the Object Browser
-and select \b Edit item. The following dialog box will appear:
-
-\image html editplot2dpresentation.png
-
-This box contains two windows:
-\par
-– Left window displays a list of curve lines, which have been
-created in the study.
-\n\n – Right window displays a list of curve lines contained in
-this particular container. These curves will be used for creation of the
-XY plot.
-
-To move a definite curve line from the study into the container,
-select it in the left window of this dialog box and click the button:
-
-\image html image15.gif
-
-To move a definite curve line from the container back into the study,
-select it in the right window of this dialog box and click the button:
-
-\image html image16.gif
-
-After having chosen the curve lines, which will compose your XY plot,
-click \b OK button to quit this dialog box. In the Object Browser the
-references to the selected curve lines will be created under your
-container.
-</li>
-
-<li>Right-click on the name of the container in the Object Browser and
-select \b Display button. A XY plot consisting of the previously
-selected curve lines, will be displayed in the viewer:
-
-\image html image12.gif
-
-</li>
-</ol>
-
-*/
/*!
\page cut_lines_page Cut Lines presentation
+\image html cutlinesprsnt.png "Example of Cut Lines presentation"
\n <b>Cut Lines</b> is a type of presentation which displays colored
cells with applied scalar values on the mesh where lines are placed.
structure of the study and can be visualized in a XY plot.</li>
</ul>
See more about table presentations and curve lines
-\ref about_tables_page "here".
+\ref table_presentations_page "here".
\par
<b>Cut Planes:</b> this tab of the dialog box contains the parameters of cut
OK. Your presentation with scalar bar will be immediately displayed in
the viewer:
-\image html cutlinesprsnt.png
-
<b>Tip:</b> From <b>Cut Lines</b> presentation you can create a
<b>data table</b>. This table will consist of the field scalar values
located on each cut line of the constructed presentation (see also:
Lines presentations"). After that your data table can be used for
construction of a 2d plot of curves based on the scalar values from
the table (see also: \ref creating_curves_page "Creating curves" and
-\ref creating_xy_plots_page "Creating XY plots").
+\ref creating_plot2d_page "Creating Plot 2D presentation").
*/
\ No newline at end of file
\page cut_planes_page Cut Planes presentation
+\image html cutplpresent.png "Example of Cut Planes presentation"
+
<b>Cut Planes</b> is a type of field presentation, when the given
shape is cut by a definite number of surfaces. These surfaces are
colored according the values applied to the cells of the mesh.
After you have finished with setting these parameters, click \b
OK. Your presentation with scalar bar will be immediately displayed in
-the viewer:
-
-\image html cutplpresent.png
+the viewer.
*/
\page deformed_shape_page Deformed Shape presentation
+\image html deformed_shape.png "Example of Deformed Shape presentation"
+
\n <b>Deformed Shape</b> is a type of field presentation when vector
values corresponding to the cells of the mesh are visualized by
shifting of these cells.
After you have finished with setting these parameters, click \b OK. Your
presentation with scalar bar will be immediately displayed in the
-viewer:
-
-\image html deformedshapesn.png
+viewer.
*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page displaying_tables_page Displaying tables
-
-\n <em>To display a table:</em>
-<ol>
-<li>Right-click on the required table in the Object Browser</li>
-
-<li>From the pop-up menu choose <b>Show Table</b> option. Your table
-will be displayed in a separate <b>View Table</b> window:
-
-\image html viewtable.png
-
-</li>
-</ol>
-
-
-*/
\ No newline at end of file
--- /dev/null
+/*!
+
+\page feature_edges_page Feature Edges
+
+This functionality highlights the contour of the object. To apply it,
+select the object in the VTK Viewer? right-click on it and choose in
+the context menu <b>Representation -> Feature edges</b>
+
+\image html viewing11.png
+
+To select which contours should be highlighted, in the Main menu
+choose <b> View -> Windows -> Feature Edges</b>
+
+\image html featureedges.png
+
+<ul>
+<li><b>Feature edges angle</b> - allows to define at which minimum
+angle between two faces a wire is considered an edge </li>
+<li><b>Show feature edges</b> - allows to display feature edges.</li>
+<li><b>Show boundary edges</b> - allows to display boundary edges.</li>
+<li><b>Show manifold edges</b> - allows to display manifold edges. </li>
+<li><b>Show non-manifold edges</b> - allows to display non-manifold edges.</li>
+</ul>
+*/
\page field_presentations_page Field presentations
+\n \b Post-Pro module provides the following types of Field presentations:
<ul>
-<li>\subpage creating_field_presentations_page</li>
-<li>\subpage scalar_map_page</li>
-<li>\subpage iso_surfaces_page</li>
-<li>\subpage cut_lines_page</li>
-<li>\subpage cut_planes_page</li>
-<li>\subpage deformed_shape_page</li>
-<li>\subpage vectors_page</li>
-<li>\subpage stream_lines_page</li>
-<li>\subpage scalar_map_on_deformed_shape_page</li>
-<li>\subpage plot_3d_page</li>
-<li>\subpage animating_page</li>
-<li>\subpage gauss_points_presentations_page</li>
-<ul>
-<li>\ref creating_gauss_points_presentation_page</li>
-<li>\ref primitive_types_page</li>
-<li>\ref types_of_gauss_points_presentations_page</li>
-<li>\ref scalar_bar_page</li>
-<li>\ref gauss_viewer_page</li>
-<li>\ref navigation_in_gauss_viewer_page</li>
-<li>\ref picking_page</li>
-<li>\ref segmentation_page</li>
-<li>\ref recording_in_gauss_viewer_page</li>
-</ul>
+ <li>\subpage scalar_map_page</li>
+ <li>\subpage iso_surfaces_page</li>
+ <li>\subpage cut_lines_page</li>
+ <li>\subpage cut_planes_page</li>
+ <li>\subpage deformed_shape_page</li>
+ <li>\subpage vectors_page</li>
+ <li>\subpage stream_lines_page</li>
+ <li>\subpage scalar_map_on_deformed_shape_page</li>
+ <li>\subpage plot_3d_page</li>
+ <li>\subpage gauss_points_presentations_page</li>
</ul>
+<br><em>To create a field presentation (\ref fields_anchor "see also"):</em>
+\par
+Right-click on one of the time stamps of this field in the Object
+browser and choose the required type of presentation from the
+following pop-up menu:
+
+\image html image20.png
+
+\note In \b Post-Pro fields may contain both scalar and vector values,
+applied to the cells of the submesh, as well as \b ONLY scalar
+values. It is not possible to make a vector presentation for the fields
+containing only scalar values.
+
+\par
+It is possible to create the following types of presentations for the fields containing only scalar values,:
+
+\image html image21.png
+
+\par
+Click on one of the time stamps of this field in the Object browser
+and select the required type of presentation from the \b Visualization
+submenu of the main menu or from the <b>Visualization Toolbar</b>.
+
+The new field presentation will be located in the time stamp subfolder in the Object Browser and displayed
+
*/
\ No newline at end of file
\page gauss_points_presentations_page Gauss Points Presentations
-<ul>
-<li>\subpage creating_gauss_points_presentation_page</li>
-<li>\subpage primitive_types_page</li>
-<li>\subpage types_of_gauss_points_presentations_page</li>
-<li>\subpage scalar_bar_page</li>
-<li>\subpage gauss_viewer_page</li>
-<li>\subpage navigation_in_gauss_viewer_page</li>
-<li>\subpage picking_page</li>
-<li>\subpage segmentation_page</li>
-<li>\subpage recording_in_gauss_viewer_page</li>
-</ul>
+\image html gauss_points.png "Example of Gauss Points presentation"
+
+Gauss Points presentation presents data on Fields as a set of fixed
+points of the renormalisation group flow with Gaussian distribution.
+
+\n <em>To create a Gauss Points presentation:</em>
+\par
+– Right-click on one of the time stamps of the field in the
+Object browser and from the pop-up menu choose <b>Gauss Points</b>, or
+\n – Click on one of the time stamps of the field in the Object
+browser and select from the main menu <b>Visualization > Gauss
+Points</b>, or click <em>"Gauss Points"</em> icon in the
+<b>Visualization Toolbar</b>.
+
+\image html image29.gif
+<center><em>"Gauss Points" icon</em></center>
+
+\image html image31.jpg
+
+\par
+Now it is possible to choose the \subpage types_of_gauss_points_presentations_page
+"Type" of your Gauss Points presentation and \subpage primitive_types_page
+"Primitives" used for visualisation of the points and set their properties.
+
+To exit the dialog and apply choices press \b OK button, or press \b
+CANCEL button to quit.
+
+
*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page gauss_viewer_page Gauss Viewer
-
-\n <b>Gauss Points Viewer</b> is the viewer specially developed to
-display <b>Gauss Points Presentations</b> in <b>Post-Pro Module</b>.
-
-The viewer is activated automatically when you choose to create a
-Gauss Points Presentation.
-\n Right mouse-click on the Presentation gives access to the following
-options:
-
-\image html image1.gif
-
-<ul>
-<li><b>Rename</b> - allows to rename the presentation.</li>
-<li><b>Edit</b> - allows to return to
-\ref types_of_gauss_points_presentations_page "Gauss Points Properties"
-menu and change the parameters of a presentation.</li>
-<li><b>Copy</b> - allows to create a copy of the presentation in the
-same subfolder (time stamp) in the Object Browser.</li>
-<li><b>Erase</b> - allows to hide the selected presentation from the
-viewer.</li>
-<li><b>Display Only</b> - allows to display only the selected
-presentation, hiding all other from the viewer.</li>
-<li><b>Store current configuration</b> - allows to save the current
-layout of the viewer (settings, position of windows, etc).</li>
-<li><b>Dump view</b> - exports an object from the viewer in bmp, png,
-jpg or jpeg image format.</li>
-<li><b>Change Background</b> - allows to change the properties of the
-background.</li>
-</ul>
-
-Most operations available via Viewer Toolbar are common with <b>VTK 3D
-Viewer</b>. <b>VTK 3D Viewer</b> is detailly described in the
-documentation on <b>GUI module</b>.
-\n However, some functionalities are used only in <b>Gauss Points Viewer</b>.
-
-<ul>
-<li>These buttons are used for \ref recording_in_gauss_viewer_page "Recording":
-
-\image html image26.gif
-
-</li>
-<li>Interaction Style Switch - allows to switch between two the modes
-of mouse manipulation:
-
-\image html image6.gif
-
-<ul>
-<li><b>Salome Standard Controls</b> - allows to manipulate objects in
-the viewer with the mouse and locked Ctrl button: increase or decrease
-the zoom ratio with the left mouse button, translate object in any
-direction with the central mouse button or rotate it with the right
-mouse button.</li>
-<li><b>Keyboard Free</b> - allows to manipulate objects in the viewer
-with the mouse without locking Ctrl button. In this case the
-operations are assigned to the buttons differently: rotation is made
-with the left button, translation with the right and zoom with both
-pressed in the same time.</li>
-</ul>
-</li>
-<li><b>Selection Mode Switch</b> - activates \ref picking_page "Picking":
-
-\image html image7.gif
-
-</li>
-<li><b>Plane Segmentation</b> - activates \ref segmentation_page "Segmentation":
-
-\image html image8.gif
-</ul>
-
-*/
\ No newline at end of file
\mainpage Post-Pro Module Reference Documentation
-<ul>
-<li>\subpage introduction_to_postpro_page</li>
-<li>\subpage running_postpro_page</li>
-<li>\subpage structure_of_med_objects_page</li>
-<li>\subpage importing_med_objects_page</li>
-<li>\subpage a3d_presentations_page</li>
-<ul>
-<li>\ref presentation_of_submesh_page</li>
-<li>\ref field_presentations_page</li>
-<ul>
-<li>\ref creating_field_presentations_page</li>
-<li>\ref scalar_map_page</li>
-<li>\ref iso_surfaces_page</li>
-<li>\ref cut_lines_page</li>
-<li>\ref cut_planes_page</li>
-<li>\ref deformed_shape_page</li>
-<li>\ref vectors_page</li>
-<li>\ref stream_lines_page</li>
-<li>\ref scalar_map_on_deformed_shape_page</li>
-<li>\ref plot_3d_page</li>
-<li>\ref animating_page</li>
-<li>\ref gauss_points_presentations_page</li>
-<ul>
-<li>\ref creating_gauss_points_presentation_page</li>
-<li>\ref primitive_types_page</li>
-<li>\ref types_of_gauss_points_presentations_page</li>
-<li>\ref scalar_bar_page</li>
-<li>\ref gauss_viewer_page</li>
-<li>\ref navigation_in_gauss_viewer_page</li>
-<li>\ref picking_page</li>
-<li>\ref segmentation_page</li>
-<li>\ref recording_in_gauss_viewer_page</li>
-</ul>
-</ul>
-<li>\ref viewing_3d_presentations_page</li>
-<ul>
-<li>\ref viewing_3d_presentations_intro_page</li>
-<li>\ref translate_presentation_page</li>
-<li>\ref clipping_page</li>
-<li>\ref sweeping_page</li>
-<li>\ref selection_info_page</li>
-</ul>
-</ul>
-<li>\subpage table_presentations_page</li>
-<ul>
-<li>\ref about_tables_page</li>
-<li>\ref importing_exporting_tables_page</li>
-<li>\ref displaying_tables_page</li>
-<li>\ref creating_tables_from_cut_lines_page</li>
-<li>\ref table_3d_page</li>
-</ul>
-<li>\subpage xy_plots_page</li>
-<ul>
-<li>\ref creating_curves_page</li>
-<li>\ref creating_xy_plots_page</li>
-<li>\ref setting_properties_of_xy_plots_page</li>
-</ul>
-<li>\subpage idl_interface_page</li>
-</ul>
+Welcome to the reference help on <b>Post-Pro </b> Salome module used for
+analysis and post-processing of numerical simulation results.
-*/
+\n To start Post-Pro module in the SALOME application click
+<b>Post-Pro</b> icon in the toolbar.
+
+\image html visuicon.png
+<center><em>"Post-Pro" icon</em></center>
+
+Before launching Post-Pro module, you should set the VTK viewer
+as default viewer for creation of a new study window. In Post-Pro you
+can create presentations only in the VTK viewer. (see also: Setting
+preferences)
+
+The initial desktop of the SALOME platform will be updated with toolbars and menus related to Post-Pro component.
+
+\image html visufullscreen.png
+
+\n The major part of \b Post-Pro functionality is dedicated to post-processing of files in MED format.
+A MED file contains the description of a \subpage med_object_page "MED object", which represents a \b mesh and a set of \b physical \b values corresponding to mesh cells.
+
+\n For compability with other solver solutions \b Post-Pro also supports
+ \subpage table_presentations_page "Data Table Objects",
+ two-dimensional data arrays, as input type for visualization.
+
+\n The Python interface of \b Post-Pro module is described in \subpage idl_interface_page "Access to Post-Pro module functionality" page.
+
+\n Detailed information about basic VTK Viewer functionality is available in the documentation on GUI module.
+
+*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page introduction_to_postpro_page Introduction to Post-Pro
-
-\n Post-processing module \b Post-Pro for SALOME is destined for
-visualization of data produced by the other components of the
-platform. \b Post-Pro provides various forms of data visualization
-including:
-<ul>
-<li>\ref about_tables_page "Data tables",</li>
-
-<li>\ref creating_xy_plots_page "XY plots based on data from tables",</li>
-
-<li>\ref presentation_of_submesh_page "3d presentations of submeshes",</li>
-
-<li>\ref creating_field_presentations_page "3d presentations of fields".</li>
-</ul>
-
-*/
\ No newline at end of file
\page iso_surfaces_page Iso Surfaces presentation
+\image html iso.png "Example of Iso Surfaces presentation"
+
\n <b>Iso Surfaces</b> presentation combines all equal scalar values
applied to the cells and on the basis of them constructs isobaric
surfaces, which form this presentation.
After you have finished with setting these parameters, click \b OK. Your
presentation with scalar bar will be immediately displayed in the
-viewer:
-
-\image html iso.png
+viewer.
*/
\ No newline at end of file
--- /dev/null
+/*!
+
+\page med_object_page MED Objects
+
+\b MED \b Object is a specific twofold data structure
+with consists of \b Mesh \b Data and \b Physical \b Data.
+
+\b Mesh \b Data includes geometrical information: list of nodes, edges, faces and cells
+of the mesh, and information on the interpolation in accordance with resulting
+elements, i.e. the mesh should be compatible with the chosen interpolation;</em></li>
+\b Physical \b Data contains initial and boundary conditions: scalar
+or vector values applied to the mesh cells.
+
+\n It is not possible to create and edit \b MED \b Objects in the \b
+Post-Pro module. You can only \subpage importing_med_objects_page
+"import a MED object" from Salome MED module or from a MED file.
+
+\n \b MED Objects can be visualized and explored with various types of
+\subpage a3d_presentations_page "3D presentations".
+
+\n \b Post-Pro visualization engine bases on VTK and OpenGL
+technologies, which provide useful tools for
+\subpage a3d_management_page "Management of presentations".
+
+As it can be seen, the description of a MED Object is written in a tree-like form,
+containing three main folders: \ref families_anchor "Families",
+\ref groups_anchor "Groups", and \ref fields_anchor "Fields".
+
+\image html snapfgf.png
+
+<br>
+\anchor families_anchor
+<h2>Families</h2>
+
+A \b Family is a user-defined submesh composed of cells of a
+definite type - Nodes, Edges, Faces or Cells</em>. The
+presentation created on the basis of a particular \b family will be
+composed of geometrical elements, corresponding to the type of cells
+of this \b family.
+
+<center>
+<table>
+<tr>
+<td><b>Type of cells (entities) of the family</b></td>
+<td><b>Geometrical element</b></td>
+</tr>
+<tr>
+<td>Nodes</td>
+<td>Points</td>
+</tr>
+<tr>
+<td>Edges</td>
+<td>Segments</td>
+</tr>
+<tr>
+<td>Faces</td>
+<td>Triangles, quadrangles</td>
+</tr>
+<tr>
+<td>Cells</td>
+<td>Any</td>
+</tr>
+</table>
+<em>Table of correspondence</em>
+</center>
+
+In the \b Families folder all families of the mesh are put into subfolders defining the type of cells of the mesh: \b onNodes,
+\b onEdges, \b onFaces, \b onCells.
+\n The subfolders also represent submeshes of the mesh, which are
+composed of all cells of the mesh of this type.
+
+<br>
+\anchor groups_anchor
+<h2>Groups</h2>
+
+\b Groups combine families independently on the type of
+cells, of which they are composed.
+
+<br>
+\anchor fields_anchor
+<h2>Fields</h2>
+
+\b Fields represent the results of calculations (scalar or vector
+values), grouped under one physical concept.
+\n These values are applied to the cells of a definite submesh, which
+is indicated in the Object Browser in the subfolder of the \b field.
+\n Most often the calculations are performed during some period of
+time. That's why \b fields include <b>Time Stamps</b>, representing
+the results of calculations in one definite moment.
+
+*/
--- /dev/null
+/*!
+
+\page navigation_page Navigation in the VTK viewer
+
+\n VTK viewer in Post-pro module provides two ways of user style
+navigation modes: \b Standard and \b Advanced. Switching between them
+is allowed with <b>Interaction Style Switch</b> button from Viewer Toolbar:
+
+<br><h2>Navigation using the mouse</h2>
+
+<h3>Standard</h3> user interaction style supports processing of mouse
+and keyboard events with the following assignments:
+
+<table>
+<tr>
+<td><center><b>Action</b></center></td><td><center><b>Command</b></center></td><td><center><b>Movement</b></center></td>
+</tr>
+<tr>
+<td>Dynamic rotation</td>
+<td><center><b>[CTRL] key + Right Mouse Button</b></center></td>
+<td>\image html image46.gif
+<center>Rotation about the focal point</center>
+</td>
+</tr>
+<tr>
+<td>Dynamic panning</td>
+<td><center><b>[CTRL] key + Central Mouse button</b></center></td>
+<td>\image html image47.gif
+<center>Translation in any direction</center>
+</td>
+</tr>
+<tr>
+<td>Dynamic zoom</td>
+<td><center><b>[CTRL] key + Left Mouse Button</b></center></td>
+<td>\image html image48.gif
+<center>Increase or decrease of zoom ratio</center>
+</td>
+</tr>
+</table>
+
+<h3>Advanced or "keyboard free"</h3> style makes it possible to manipulate objects without
+keyboard keys,
+
+<table>
+<tr>
+<td><center><b>Action</b></center></td><td><center><b>Command</b></center></td><td><center><b>Movement</b></center></td>
+</tr>
+<tr>
+<td>Dynamic rotation</td>
+<td><center><b>Right Mouse Button</b></center></td>
+<td>\image html image46.gif
+<center>Rotation about the focal point</center>
+</td>
+</tr>
+<tr>
+<td>Dynamic panning</td>
+<td><center><b>Central Mouse button</b></center></td>
+<td>\image html image47.gif
+<center>Translation in any direction</center>
+</td>
+</tr>
+<tr>
+<td>Dynamic zoom</td>
+<td><center><b>Left Mouse Button + Central Mouse button</b></center></td>
+<td>\image html image49.gif
+<center>Increase or decrease of zoom ratio</center>
+</td>
+</tr>
+</table>
+
+\ref selection_info_page also depends on the user interaction
+style. With the \b Standard style Selection is activated by pressing
+left mouse button, while with the \b Advanced style selection is done
+by pressing \b S key.
+
+It is possible to customize the sencibility of each view operation
+(rotation, panning and zooming) by pressing \b + or \b - keys to
+increase or decrease the speed.
+
+
+
+<br><h2>Navigation using the keyboard</h2>
+
+VTK viewer also allows to manipulate objects using keyboard keys.
+
+<table>
+<tr>
+<td><center><b>Action</b></center></td><td><center><b>Key</b></center></td><td><center><b>Movement</b></center></td>
+</tr>
+<tr>
+<td>Dynamic rotation</td>
+<td><center><b>[CTRL] key + \n Left Arrow, Right Arrow , \n Up Arrow, Down Arrow</b></center></td>
+<td>\image html image46.gif
+<center>Rotation about the focal point</center>
+</td>
+</tr>
+<tr>
+<td>Dynamic panning</td>
+<td><center><b>Left Arrow, Right Arrow, \n Up Arrow, Down Arrow</b></center></td>
+<td>\image html image47.gif
+<center>Translation in any direction</center>
+</td>
+</tr>
+<tr>
+<td>Dynamic zoom</td>
+<td><center><b>[PageUp], \n [PageDn]</b></center></td>
+<td><center>Increase or decrease of zoom ratio</center></td>
+</tr>
+<tr>
+<td>Speed increment</td>
+<td><center><b>[ + ], \n [ - ]</b></center></td>
+<td><center>Increase or decrease by 1 of the speed increment for the previously defined movement.</center></td>
+</tr>
+</table>
+
+<br><h2>Navigation using the spacemouse</h2>
+
+VTK viewer also allows to manipulate objects using a spacemouse.
+
+The spacemouse introduces a local coordinate system and 6 degrees of
+freedom, which are independent from the 3D view coordinate system.
+
+\image html image50.gif
+
+The movement of 3D models in the screen depends on the user
+manipulations with the controller head.
+
+<table>
+<tr>
+<td><center><b>Action</b></center></td><td><center><b>Move</b></center></td><td><center><b>Description</b></center></td>
+</tr>
+<tr>
+<td>Dynamic rotation \n about axis X</td>
+<td>\image html image51.gif</td>
+<td><center><b>Tilt</b> the controller head forward and backward to rotate the object about axis X.</center></td>
+</tr>
+<tr>
+<td>Dynamic rotation \n about axis Y</td>
+<td>\image html image52.gif</td>
+<td><center><b>Rotate</b> the controller head clockwise and counterclockwise to rotate the model about axis Y.</center>
+</td>
+</tr>
+<tr>
+<td>Dynamic panning</td>
+<td>\image html image53.gif</td>
+<td><center><b>Pull</b> up and <b>push</b> down to move the model up and down.
+\n <b>Move left</b> and <b>right</b> to move the model left and right.</center>
+</td>
+</tr>
+<tr>
+<td>Dynamic zoom</td>
+<td>\image html image54.gif</td>
+<td><center><b>Push forward</b> or <b>pull backward</b> to respectively decrease or increase the zoom ratio.</center>
+</td>
+</tr>
+</table>
+
+Buttons of the spacemouse are also used to change the magnification
+for Gauss points:
+
+\image html image55.gif
+
+By default, buttons are defined as follows, however the user can
+change them in the preferences:
+
+<table>
+<tr>
+<td><center><b>Button</b></center></td>
+<td><center><b>Description</b></center></td>
+</tr>
+<tr>
+<td><center>Button 1</center></td>
+<td>Decrease by 1 speed increment used for the keyboard (the same as [-] key)</td>
+</tr>
+<tr>
+<td><center>Button 2</center></td>
+<td>Increase by 1 speed increment used for the keyboard (the same as [+] key)</td>
+</tr>
+<tr>
+<td><center>Button 10</center></td>
+<td>Divide the current magnification by the magnification ratio</td>
+</tr>
+<tr>
+<td><center>Button 11</center></td>
+<td>Multiply the current magnification by the magnification ratio</td>
+</tr>
+<tr>
+<td><center>Button Star</center></td>
+<td>Toggle button to switch to dominant or combined movements</td>
+</tr>
+</table>
+
+*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page navigation_in_gauss_viewer_page Navigation in the Gauss viewer
-
-\n Gauss viewer provides some navigation options, which are not
-available in other Salome viewers.
-
-<br><h2>Navigation using the mouse</h2>
-
-<h3>Salome standard</h3>
-The mouse is supported as a standard manipulator in Salome possessing
-the following actions by default:
-
-<table>
-<tr>
-<td><center><b>Action</b></center></td><td><center><b>Command</b></center></td><td><center><b>Movement</b></center></td>
-</tr>
-<tr>
-<td>Dynamic rotation</td>
-<td><center><b>[CTRL] key + Right Mouse Button</b></center></td>
-<td>\image html image46.gif
-<center>Rotation about the focal point</center>
-</td>
-</tr>
-<tr>
-<td>Dynamic panning</td>
-<td><center><b>[CTRL] key + Central Mouse button</b></center></td>
-<td>\image html image47.gif
-<center>Translation in any direction</center>
-</td>
-</tr>
-<tr>
-<td>Dynamic zoom</td>
-<td><center><b>[CTRL] key + Left Mouse Button</b></center></td>
-<td>\image html image48.gif
-<center>Increase or decrease of zoom ratio</center>
-</td>
-</tr>
-</table>
-
-<h3>Gauss Viewer</h3>
-In Gauss Viewer it is possible to manipulate objects without locking
-keyboard keys, switching between the standard and the advanced
-operation modes with <b>Interaction Style Switch</b> button from Gauss
-Viewer Toolbar:
-
-<table>
-<tr>
-<td><center><b>Action</b></center></td><td><center><b>Command</b></center></td><td><center><b>Movement</b></center></td>
-</tr>
-<tr>
-<td>Dynamic rotation</td>
-<td><center><b>Right Mouse Button</b></center></td>
-<td>\image html image46.gif
-<center>Rotation about the focal point</center>
-</td>
-</tr>
-<tr>
-<td>Dynamic panning</td>
-<td><center><b>Central Mouse button</b></center></td>
-<td>\image html image47.gif
-<center>Translation in any direction</center>
-</td>
-</tr>
-<tr>
-<td>Dynamic zoom</td>
-<td><center><b>Left Mouse Button + Central Mouse button</b></center></td>
-<td>\image html image49.gif
-<center>Increase or decrease of zoom ratio</center>
-</td>
-</tr>
-</table>
-
-<br><h2>Navigation using the keyboard</h2>
-
-Salome does not allow to manipulate objects using keyboard keys, which
-is possible in Gauss Viewer only.
-
-<table>
-<tr>
-<td><center><b>Action</b></center></td><td><center><b>Key</b></center></td><td><center><b>Movement</b></center></td>
-</tr>
-<tr>
-<td>Dynamic rotation</td>
-<td><center><b>[CTRL] key + \n Left Arrow, Right Arrow , \n Up Arrow, Down Arrow</b></center></td>
-<td>\image html image46.gif
-<center>Rotation about the focal point</center>
-</td>
-</tr>
-<tr>
-<td>Dynamic panning</td>
-<td><center><b>Left Arrow, Right Arrow, \n Up Arrow, Down Arrow</b></center></td>
-<td>\image html image47.gif
-<center>Translation in any direction</center>
-</td>
-</tr>
-<tr>
-<td>Dynamic zoom</td>
-<td><center><b>[PageUp], \n [PageDn]</b></center></td>
-<td><center>Increase or decrease of zoom ratio</center></td>
-</tr>
-<tr>
-<td>Speed increment</td>
-<td><center><b>[ + ], \n [ - ]</b></center></td>
-<td><center>Increase or decrease by 1 of the speed increment for the previously defined movement.</center></td>
-</tr>
-</table>
-
-<br><h2>Navigation using the spacemouse</h2>
-
-Salome does not allow to manipulate objects using a spacemouse, which
-is possible in Gauss Viewer only.
-
-The spacemouse introduces a local coordinate system and 6 degrees of
-freedom, which are independent from the 3D view coordinate system.
-
-\image html image50.gif
-
-The movement of 3D models in the screen depends on the user
-manipulations with the controller head.
-
-<table>
-<tr>
-<td><center><b>Action</b></center></td><td><center><b>Move</b></center></td><td><center><b>Description</b></center></td>
-</tr>
-<tr>
-<td>Dynamic rotation \n about axis X</td>
-<td>\image html image51.gif</td>
-<td><center><b>Tilt</b> the controller head forward and backward to rotate the object about axis X.</center></td>
-</tr>
-<tr>
-<td>Dynamic rotation \n about axis Y</td>
-<td>\image html image52.gif</td>
-<td><center><b>Rotate</b> the controller head clockwise and counterclockwise to rotate the model about axis Y.</center>
-</td>
-</tr>
-<tr>
-<td>Dynamic panning</td>
-<td>\image html image53.gif</td>
-<td><center><b>Pull</b> up and <b>push</b> down to move the model up and down.
-\n <b>Move left</b> and <b>right</b> to move the model left and right.</center>
-</td>
-</tr>
-<tr>
-<td>Dynamic zoom</td>
-<td>\image html image54.gif</td>
-<td><center><b>Push forward</b> or <b>pull backward</b> to respectively decrease or increase the zoom ratio.</center>
-</td>
-</tr>
-</table>
-
-Buttons of the spacemouse are also used to change the magnification
-for Gauss points:
-
-\image html image55.gif
-
-By default, buttons are defined as follows, however the user can
-change them in the preferences:
-
-<table>
-<tr>
-<td><center><b>Button</b></center></td>
-<td><center><b>Description</b></center></td>
-</tr>
-<tr>
-<td><center>Button 1</center></td>
-<td>Decrease by 1 speed increment used for the keyboard (the same as [-] key)</td>
-</tr>
-<tr>
-<td><center>Button 2</center></td>
-<td>Increase by 1 speed increment used for the keyboard (the same as [+] key)</td>
-</tr>
-<tr>
-<td><center>Button 10</center></td>
-<td>Divide the current magnification by the magnification ratio</td>
-</tr>
-<tr>
-<td><center>Button 11</center></td>
-<td>Multiply the current magnification by the magnification ratio</td>
-</tr>
-<tr>
-<td><center>Button Star</center></td>
-<td>Toggle button to switch to dominant or combined movements</td>
-</tr>
-</table>
-
-*/
\ No newline at end of file
--- /dev/null
+/*!
+
+\page perspective_view_page Orthogonal and Perspective view modes
+
+3D objects in orthogonal progection sometimes look as if they were 2D.
+Perspective projection mode makes presentations look more realistic.
+
+It is possible to swicth between two modes using VTK viewer toolbar
+buttons:
+
+\image html perspective1.png "Perspective mode button"
+
+\image html perspective2.png "Orthogonal mode button"
+
+For example, look at the box in both views.
+
+\image html perspective3.png "Box in perspective mode"
+
+\image html perspective4.png "Box in orthogonal mode"
+
+Further than that, the user can fully control the presentation of a 3D
+scene by modification of camera attributes.
+
+To understand how the scene is built, see this picture.
+
+\image html image36.gif
+
+<ul>
+<li><b>Camera position</b> defines the location of the camera. </li>
+<li><b>Focal point</b> defines the point where the camera is
+aimed.</li>
+<li><b>View up</b> defines the camera orientation. </li>
+</ul>
+
+To change camera attributes, click <b>Change View Parameters</b>
+button in the VTK viewer toolbar.
+
+\image html perspective5.png
+
+The following dialog will appear:
+
+\image html perspective6.png
+
+<ul>
+<li><b>Focal point</b> - can be set in the center of the bounding box
+of all displayed objects, or in the origin of coordinates, or defined
+by the user.</li>
+<li><b>Camera position</b> - can be defined by the absolute coordinates or by the coordinates relative to the focal point.</li>
+<li><b>View up</b> defines the vector of camera orientation.</li>
+<li>\b Zooming in Orthogonal mode is defined by \b Scale factor, in
+\b Perspective mode is defined by <b>View angle</b>. </li>
+</ul>
+*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page picking_page Picking
-
-\n Picking is a special way of viewing Gauss Points presentations.
-
-\image html image34.jpg
-
-Picking mode is activated by selecting <em>"Selection Mode Switch"</em>
-button in the Gauss Viewer toolbar.
-
-\image html image34.gif
-<center><em>"Selection Mode Switch" icon</em></center>
-
-Now if the cursor touches a point it is highlighted with triangular
-markers (pyramids). The cursor is dynamically generated so that apexes
-of each pyramid touch the point sprite boundary, and the height of the
-pyramid is fixed.
-
-\image html image69.gif
-
-To get information about the point click the left mouse button or
-press S (or s) key of the keyboard.
-\n Once a point is selected, the presentation is centered around this
-point and a semi-transparent window is displayed next to the selected
-point and shows the following information:
-<ul>
-<li>The ID of the point within its parent mesh element</li>
-<li>Coordinates of the Gauss point</li>
-<li>In the case of a result at Gauss point: Scalar value being inspected + all components individually</li>
-<li>Name of its parent mesh element</li>
-</ul>
-In addition, the active scalar bar is updated to highlight the
-corresponding value of the selected scalar value by a black line.
-
-All Picking preferences can be defined using Preferences, however, you
-can customize them for the current presentation.
-
-\image html picking.png
-
-<ul>
-<li>\b Cursor - allows to adjust the \b Size of the cursor used for
-Picking (ranging from 0.1 to 1), the <b>Height of the pyramids</b>
-(ranging from 0 to 10) and the <b>Selection cursor color</b>.</li>
-<li>\b Tolerance - defines at which distance of the cursor from the
-point it becomes selected (ranges from 0.001 to 10).</li>
-<li><b>Information window</b> - allows to define the \b Transparency
-(from 0% = opaque to 100% = transparent) and \b Position of the
-window, which can be:</li>
-<ul>
-<li><b>Centred below the point</b>, or </li>
-<li>located at <b>Top-left corner of the 3D view</b></li>
-</ul>
-<li><b>Movement of the Camera</b> can also be define by the user.</li>
-<ul>
-<li><b>Zoom at first selected point</b> - This value is used to define
-the focal distance at the first selected point (at the end of the
-movement of the camera). This value is a ratio that will be multiplied
-by the current zoom value.</li>
-<li><b>Number of steps between two positions</b> - defines the
-smoothness of camera movement at selection by the number of
-iterations. If set to 1 the camera is zoomed and centered at the point
-momentarily. Greater numbers mean very slow camera movement.</li>
-</ul>
-<li><b>Display parent mesh element</b> - allows to visualize or hide
-the parent mesh element of the selected gauss point.</li>
-</ul>
-
-*/
\ No newline at end of file
\page plot_3d_page Plot 3D presentation
+\image html plot3d-example.png "Example of Plot 3D presentation"
+
\n <b>Plot 3D</b> is a presentation of scalar values of meshes lying
on a cutting plane. The relief and coloring of the resulting
presentation both correspond to the values applied to the cells of the
bar displayed with this presentation (\ref scalar_map_page "see also").
After you have finished with setting these parameters, click \b
-OK. Your presentation will be immediately displayed in the viewer:
-
-\image html plot3d-example.png
+OK. Your presentation will be immediately displayed in the viewer.
*/
\ No newline at end of file
\page presentation_of_submesh_page Presentation of a submesh
+\image html image11.gif "Example of submesh presentation"
+
+The main purpose of presentations of a submesh is to display the mesh structure without any physical data.
+Thus it is possible to create such presentations only on \b Families sub-objects.
+
<br><em>To create a presentation of a submesh:</em>
\par
In the Object Browser right-click on a submesh of an imported MED
object and from the pop-up menu choose <b>Create Presentation</b>.
<br><br>
-This presentation will be displayed in the viewer:
-
-\image html image11.gif
+This presentation will be displayed in the viewer.
*/
\ No newline at end of file
--- /dev/null
+/*!
+
+\page recording_page Recording
+
+\n In the addition to the \ref animating_page "Animation" and
+\ref sweeping_page "Sweeping" on timestamps Post-Pro module provides a possibility of recording AVI clips of user actions. This
+functionality is available at any time for all contents of the VTK Viewer.
+
+To start the video recording session, click <em>"Start"</em>
+button. You will see a standard dialog box allowing to input the file
+name for the AVI clip and browse for the location.
+
+\image html startrecording.png
+<center><em>"Start" button</em></center>
+
+\image html recordingsaveas.png
+
+Then you'll be asked to define <b>Recording Properties</b>:
+
+\image html recording.png
+
+- \b Settings:
+<ul>
+<li><b>Save to file</b> - you can change the name of the file you've
+chosen for saving.</li>
+<li>\b Mode - allows to choose from two recording regimes: </li>
+<ul>
+<li><b>Recording all displayed frames</b> - records exactly at the FPS
+rate specified by the user.</li>
+<li><b>Recording at a given FPS</b> - records only when the contents
+of the viewer change (some activity is performed). In the AVI file
+non-recorded images are substituted with the copies of the latest
+recorded image, which produces files with lower quality but requires
+less system resources.</li>
+</ul>
+<li>\b FPS - allows to define the FPS (frames per second) rate for the
+clip. Set greater value for better quality.</li>
+<li>\b Quality - allows to set the quality of the clip in the interval
+between 0 and 100.</li>
+<li>\b Progressive - allows to record a progressive API file.</li>
+</ul>
+
+After you click \b OK, the recording will start and all your actions
+in the viewer will be recorded.
+\n Note that if you change the size of the 3D viewer window, the avi
+file would be corrupt.
+
+Press \b Stop button to finish video recording or \b Pause button to
+suspend it. If the recording is just paused, you can always continue
+it by clicking \b Play button.
+
+\image html image105.gif
+<center><em>"Stop" button</em></center>
+
+\image html image104.gif
+<center><em>"Pause" button</em></center>
+
+\image html image103.gif
+<center><em>"Play" button</em></center>
+
+\note This functionality works only if there is \b jpeg2yuv utility
+installed on your computer. If this third-party product is missing,
+the \b Recording buttons will be disabled. This utility is a part of
+\b mjpegtool package, which can be downloaded from
+http://mjpeg.sourceforge.net/. Run "which jpeg2yuv" to check whether
+this tool has been installed and the path to it was properly added to
+your PATH variable. If not, you need to activate \b mjpegtools
+indicating its location in the variable PATH. The syntax of the
+command should be as follows: export
+PATH=${INSTALL_ROOT}/mjpegtools-1.8.0/bin:${PATH}.
+
+*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page recording_in_gauss_viewer_page Recording in Gauss Viewer
-
-\n In the addition to the \ref animating_page "Animation" at Time
-stamps available for all Post-Pro presentations, <b>Gauss Viewer</b>
-gives the possibility to record AVI clips of user actions. This
-functionality is available at any time for all contents of the 3D
-Viewer, including Animation or Segmentation.
-
-To start the video recording session click <em>"Start"</em> button. After it
-you will see a standard dialog box allowing input the file name for
-AVI clip and browse for the location.
-
-\image html image102.gif
-<center><em>"Start" button</em></center>
-
-\image html recordingsaveas.png
-
-Then you'll be asked to define <b>Recording Properties</b>:
-
-\image html recording.png
-
-- \b Settings:
-<ul>
-<li><b>Save to file</b> - you can change the name of the file you've
-chosen for saving.</li>
-<li>\b Mode - allows to choose from two recording regimes: </li>
-<ul>
-<li><b>Recording all displayed frames</b> - records exactly at the FPS
-rate specified by the user.</li>
-<li><b>Recording at a given FPS</b> - records only when the contents
-of the viewer change (some activity is performed). In the AVI file
-non-recorded images are substituted with the copies of the latest
-recorded image, which produces files with lower quality but requires
-less system resources.</li>
-</ul>
-<li>\b FPS - allows to define the FPS (frames per second) rate for the
-clip. Set greater value for better quality.</li>
-<li>\b Quality - allows to set the quality of the clip in the interval
-between 0 and 100.</li>
-<li>\b Progressive - allows to record a progressive API file.</li>
-</ul>
-
-After you click \b OK, the recording will start and all your actions
-in the viewer will be recorded.
-\n Note that if you change the size of the 3D viewer window, the avi
-file would be corrupt.
-
-Press \b Stop button to finish video recording or \b Pause button to
-suspend it. If the recording is just paused, you can always continue
-it by clicking \b Play button.
-
-\image html image105.gif
-<center><em>"Stop" button</em></center>
-
-\image html image104.gif
-<center><em>"Pause" button</em></center>
-
-\image html image103.gif
-<center><em>"Play" button</em></center>
-
-\note This functionality works only if there is \b jpeg2yuv utility
-installed on your computer. If this third-party product is missing,
-the \b Recording buttons will be disabled. This utility is a part of
-\b mjpegtool package, which can be downloaded from
-http://mjpeg.sourceforge.net/. Run "which jpeg2yuv" to check whether
-this tool has been installed and the path to it was properly added to
-your PATH variable. If not, you need to activate \b mjpegtools
-indicating its location in the variable PATH. The syntax of the
-command should be as follows: export
-PATH=${INSTALL_ROOT}/mjpegtools-1.8.0/bin:${PATH}.
-
-*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page running_postpro_page Running Post-Pro
-
-\n To start Post-Pro module in the SALOME application click
-<em>"Post-Pro"</em> icon in the toolbar.
-
-\image html visuicon.jpg
-<center><em>"Post-Pro" icon</em></center>
-
-\note Before launching Post-Pro module, you should set the VTK viewer
-as default viewer for creation of a new study window. In Post-Pro you
-can create presentations only in the VTK viewer. (see also: Setting
-preferences)
-
-The initial desktop of the SALOME platform will be updated with some
-additional toolbars and menus related to Post-Pro component . It will
-look like as follows:
-
-\image html visufullscreen.png
-
-*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page scalar_bar_page Scalar Bar
-
-\n Gauss Points Presentations presume that two different scalar bars
-are displayed simultaneously:
-\n The Global scale corresponds to the minimum and maximum values
-founded for the variable at all time stamps (located on the left
-side). When active, the second is displayed in grey and disabled. The
-Local scale defines the minimum and maximum values at the current time
-stamp for the variable (located on the right side). When the Local
-scale is active, the Global scale shows its limits 2 black lines.
-
-The dialog allows user to define the characteristics of the scalar
-bars displayed within the scene.
-
-\image html gpp6.png
-
-<ul>
-<li><b>Active bar</b></li>
-<ul>
-<li>\b Local: when selected, the \b Local bar will be active and
-colors used for rendering of the results will be taken from this
-bar. If displayed, the \b Global bar will be displayed in grey and 2
-markers will define the limits of the local min/max range.</li>
-<li>\b Global: when selected, the \b Global bar will be active and
-colors used for rendering of the results will be taken from this bar
-(i.e.: not all colors may be used to display results at a given time
-stamp). \b Local bar will be displayed in grey and inactive.</li>
-<li>\b Displayed: when checked, the \b Global bar is displayed, else
-it is not seen. This control is systematically checked and disabled
-when the \b Global bar is defined as active.</li>
-</ul>
-<li><b>Scalar range</b></li>
-<ul>
-<li><b>Scalar Mode:</b> this feature allows refining the value to be
-inspected:</li>
-<ul>
-<li>\b Modulus: value of a scalar or modulus of a vector.</li>
-<li><b>Component N:</b> Nth component of a vector, a tensor or a
-matrix.</li>
-</ul>
-</ul>
-<li><b>Colors and labels</b></li>
-<ul>
-<li>\b Bicolor: only 2 colors are used for the active bar:</li>
-<ul>
-<li>\b Red for positive values.</li>
-<li>\b Blue for negative values.</li>
-</ul>
-These colors also correspond to the colors associated to min/max
-values of the palette option.
-</ul>
-<ul>
-<li>\b Rainbow: A palette of several colors will be used to render the
-results. A regular and linear progression is considered from min to
-max.</li>
-<ul>
-<li><b>Nb. of colors:</b> defines the number of color to design the
-palette (up to 256 colors can be used).</li>
-<li><b>Nb. of labels:</b> defines the number of labels to be written
-in the bar as text markers.</li>
-</ul>
-</ul>
-<li>\b Orientation - allows to choose between \b Vertical and \b
-Horizontal orientation.</li>
-<li>\b Origin - allows to define placement and lookout of Scalar
-Bars.</li>
-<ul>
-<li>\b X: abscissa of the point of origin (from the left side).</li>
-<li>\b Y: ordinate of the origin of the bar (from the bottom).</li>
-</ul>
-<li>\b Dimensions - allows to define \b Width and \b Height of each
-bar.</li>
-<ul>
-<li>\b Spacing - space between the bars (only if both are displayed). </li>
-</ul>
-<li><b>Text properties:</b> allows to define properties of font and
-text associated to the active bar.</li>
-<li><b>Bar properties:</b> It allows changing the relative scale of Title, Labels and Color Bar. It is possible to change the visibility of units in Scalar Bar title and format of labels.</li>
-</ul>
-
-*/
\page scalar_map_page Scalar Map presentation
+\n \image html scalar_map_on_points.png "Scalar map on Point Mesh"
+
+
\n <b>Scalar Map</b> is the basic type of visualization of calculation
data in \b Post-Pro module. This presentation consists of the
following:
\image html scalarbarproperties.png
-\note This dialog box is equal for all types of field presentations
+\note This dialog box is the same for all types of field presentations
and it will be present as an additional tab in all dialog boxes
allowing to create the other types of presentations. It allows to set
the parameters of <b>Scalar range</b>, as well as the parameters of
<li>Format of \b Labels.</li>
</ul>
</li>
+<li> <b> Preview </b> checkbox allows to see a preview of the
+presentation while editing <b>Scalar Bar</b> properties. </li>
+<li> <b> Show distribution </b> checkbox introduces additional curved
+scalar bar representing the distribution curve according to the number
+of mesh elements of the corresponding color. This bar is always placed
+along the scalar bar.</li>
+
+\image html distributionbar.png "Distribution Bar"
+
+<li> <b>Save as default </b> checkbox saves the modified
+<b>Scalar Bar</b> parameters as default for all other
+presentations.</li>
+</ul>
+
+/note The following option is relevant only for Gauss Points presentations.
+
+\n Gauss Points Presentations presume that two different scalar bars
+are displayed simultaneously:
+\n The Global scale corresponds to the minimum and maximum values
+founded for the variable at all time stamps (located on the left
+side). When active, the second is displayed in grey and disabled. The
+Local scale defines the minimum and maximum values at the current time
+stamp for the variable (located on the right side). When the Local
+scale is active, the Global scale shows its limits with two black
+lines.
+
+\image html activebar2.png "Local and Global bars"
+
+Local and Global bars can be switched in the <b>Scalar bar</b> tab for
+Gauss Points presentation.
+
+\image html activebar1.png
+
+<ul>
+<li>\b Local: when selected, the \b Local bar will be active and
+colors used for rendering of the results will be taken from this
+bar. If displayed, the \b Global bar will be displayed in grey and 2
+markers will define the limits of the local min/max range.</li>
+<li>\b Global: when selected, the \b Global bar will be active and
+colors used for rendering of the results will be taken from this bar
+(i.e.: not all colors may be used to display results at a given time
+stamp). \b Local bar will be displayed in grey and inactive.</li>
+<li>\b Displayed: when checked, the \b Global bar is displayed, else
+it is not seen. This control is systematically checked and disabled
+when the \b Global bar is defined as active.</li>
</ul>
-After you have finished with setting these parameters, click \b
-OK. Your presentation with scalar bar will be immediately displayed in
-the viewer:
+After you have finished with setting the parameters, click \b
+OK. The presentation will be immediately displayed in the viewer:
-\image html scalarrangesn.png
+\image html scalar_map_on_cells.png "Scalar map on Cell Mesh"
*/
--- /dev/null
+/*!
+
+\page scalar_map_on_deformed_shape_page Deformed Shape and Scalar Map presentation
+
+\image html scalar_map_and_deformed_shapes.png "Example of Deformed Shape and Scalar Map presentation"
+
+\n <b>Deformed Shape and Scalar Map</b> presentation is a mix of the
+two: \ref scalar_map_page "Scalar Map" and \ref deformed_shape_page
+"Deformed Shape". In this presentation the Scalar Map is built on a
+Deformed Shape.
+
+<em>To create a Deformed Shape and Scalar Map presentation:</em>
+\par
+– Right-click on one of the time stamps of the field in the
+Object browser and from the pop-up menu choose <b>Deformed Shape and
+Scalar Map</b>, or
+\n – Click on one of the time stamps of the field in the Object
+browser and select from the main menu <b>Visualization > Deformed Shape and
+Scalar Map</b>, or click <em>"Deformed Shape and Scalar Map"</em>
+icon in the <b>Visualization Toolbar</b>.
+
+\image html image40.gif
+<center><em>"Deformed Shape and Scalar Map" icon</em></center>
+
+\image html smds1.png
+
+\par
+<b>Deformed Shape and Scalar Map</b> tab allows you to set additional
+parameters of your Deformed Shape and Scalar Map presentation:
+<ul>
+<li><b>Scale Factor:</b> visualization scaling of all vector values
+applied to the cells of the mesh.</li>
+<li><b>Fields:</b> allows to choose type of fields on which the
+presentation will be built.</li>
+<li><b>Time Stamp:</b> allows to choose the time stamp on which the
+presentation will be built.</li>
+</ul>
+<b>Scalar Bar</b> tab allows to define the parameters of the scalar
+bar displayed with this presentation (\ref scalar_map_page "see also").
+
+After you have finished with setting these parameters, click \b
+OK. Your presentation will be immediately displayed in the viewer.
+
+You can compire result presentation with \ref scalar_map_page "Scalar Map" presentation
+
+\image html scalar_map_on_cells.png "Example of Scalar Map presentation"
+
+*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page segmentation_page Segmentation
-
-\n \b Segmentation is a functionality similar to \b Clipping in \b
-Mesh and \b Geom modules.
-
-\b Segmentation can be activated by clicking <em>"Plane
-Segmentation"</em> or <em>"Sphere Segmentation"</em> button in the
-Gauss Viewer toolbar.
-
-\image html image35.gif
-<center><em>"Plane Segmentation" icon</em></center>
-
-\image html image38.gif
-<center><em>"Sphere Segmentation" icon</em></center>
-
-Once the command is activated, a new window, below the main 3D view is
-created to display the content of the segmentation cursor. A dialog
-box is also displayed to manually configure the segmentation cursor
-parameters.
-\n The <b>Main view</b> (top) shows the results at Gauss points with
-scalar bars. A semi-transparent <b>Segmentation Cursor</b> defines the
-part of the variables to be inspected. Two different presentations
-for Gauss points are used, depending on location of the points: \b
-Inside or \b Outside the segmentation cursor.
-\n The <b>Secondary view</b> (bottom) is also called <b>Segmentation
-Viewer</b>. It shows, in real time, the results at Gauss points only
-(no mesh elements) that are located inside the segmentation
-cursor. Gauss points are displayed in the same way as \b Inside points
-in the first view. This view is automatically updated when the cursor
-is changed in the first view.
-\n <b>Gauss Points</b> tab of the Segmentation menu allows to define
-visualization parameters for Inside and Outside cursor Gauss Points.
-See \ref primitive_types_page "Primitives" and
-\ref types_of_gauss_points_presentations_page "Presentations" to learn
-about parameters definable in this tab.
-
-\image html planes.png
-
-<b>Plane segmentation</b> is characteristic for its Segmentation
-Cursor in the form of a box with an axis to define its orientation and
-two planes defining its upper and lower boundaries.
-\n It can be defined in Segmentation Cursor tab, which allows to
-define coordinates of origin, direction and depth of the segmentation
-plane.
-
-\image html image74.gif
-
-\image html image37.jpg
-
-Actually it is also possible to edit these parameters directly with
-the mouse in the main 3D view:
-<ul>
-<li>Translation (dragging) of the lower plane along the V axis changes
-the \b Origin of the cursor.</li>
-<li>Rotating the V axis around its origin defines a new \b Direction
-for the cursor.</li>
-<li>Dragging the upper plane along its axis changes the \b Depth of
-the cursor. It is not possible to move the lower above the upper plane
-(minimum depth is 0).</li>
-</ul>
-
-\image html spheroid.png
-
-<b>Sphere segmentation</b> is characteristic for its Segmentation
-Cursor in the form of a sphere with an axis to define its orientation.
-\n It can be defined in Segmentation Cursor tab, which allows to
-define coordinates of origin, and radius of the segmentation sphere.
-
-\image html image117.gif
-
-\image html image38.jpg
-
-The \b Origin can also be changed in the 3D Viewer by dragging the
-Sphere with the mouse.
-
-When the user exits the \b Segmentation menu, the function is ended
-and the second view (segmentation cursor viewer) is erased.
-
-*/
/*!
-\page selection_info_page Selection Info
+\page selection_info_page Selection
-<em>To view the attributes of elements (cells, points, meshes)
-displayed in the viewer:</em>
+This functionality allows to view the attributes of elements
+(meshes, cells, points, gauss points) displayed in the viewer
\image html cellsel.jpg
-\par
-In the main menu choose <b>Selection > Selection info...</b>, choose
-the necessary type of elements (\b Point, \b Cell, or \b Actor) in the
-dialog box and click on the element of the required type in the
+By default the indication of position and size of the sected objest is
+always present in the top left corner of the viewer.
+
+\image html selection1.png
+
+To access more advanced selection possibilities the Main menu choose
+<b>View - > Windows -> Selection</b>, choose
+the necessary type of elements (\b Actor, \b Cell, \b Point or \b
+Gauss \b Point) in the dialog box and click on the element of the required type in the
viewer. The chosen element will be highlighted and its attributes will
-be displayed in this dialog box:
+be displayed in the dialog box.
-\image html dataonelements1.png
+\image html selection2.png
-You can get the following information about \b Points:
+An \b Actor (any 3D object (presentation of a submesh, field
+presentation) displayed in the viewer) possesses the following
+characteristics:
<ul>
-<li>Mesh name</li>
-<li>Field name</li>
-<li>ID Number of the point</li>
-<li>Scalar value applied to the point (if any)</li>
-<li>Vector value applied to the point (if any)</li>
-<li>Coordinates of the point in 3d space</li>
-<li>Indexes (i,j,k) of the point (for structured meshes only)</li>
+<li> \b Mesh \b name - name of the mesh on which the presentation is built.</li>
+<li> \b Field \b name - name of the mesh on which the presentation is built.</li>
+<li> \b Position - coordinates of the object in 3d space.</li>
+<li> \b Size of the object (expressed as the extent along the coordinates).</li>
</ul>
-<br>
-\image html dataonelements2.png
+\image html selection3.png
The following information about \b Cells is available:
<ul>
-<li>Mesh name</li>
-<li>Field name</li>
-<li>ID Number of the cell</li>
-<li>Scalar value applied to the cell (if any)</li>
-<li>Vector value applied to the cell (if any)</li>
-<li>Attributes of the points forming this cell (in table layout)</li>
+<li> \b Mesh \b name - name of the mesh on which the presentation is built.</li>
+<li> \b Field \b name - name of the mesh on which the presentation is built.</li>
+<li> \b ID - number of the cell.</li>
+<li> \b Scalar \b Value applied to the cell (if any).</li>
+<li> \b Vector \b Value applied to the cell (if any).</li>
+<li> Attributes of the points forming this cell (in table layout).</li>
</ul>
-<br>
-\image html dataonelements3.png
+\image html selection4.png
-An \b Actor (any 3D object (presentation of a submesh, field
-presentation) displayed in the viewer) possesses the following
-characteristics:
+You can get the following information about \b Points:
<ul>
-<li><em>Mesh name</em></li>
-<li><em>Field name</em></li>
-<li><em>Coordinates of the object in 3d space</em></li>
-<li><em>Size of the object (expressed as the extent along the coordinates)</em></li>
+<li> \b Mesh \b name - name of the mesh on which the presentation is built.</li>
+<li> \b Field \b name - name of the mesh on which the presentation is built.</li>
+<li> \b ID Number of the point.</li>
+<li> \b Scalar \b Value applied to the point (if any).</li>
+<li> \b Vector \b Value applied to the point (if any).</li>
+<li> \b Coordinates (x,y,z) of the point in 3d space.</li>
+<li> \b Indexes (i,j,k) of the point (for structured meshes only).</li>
+<li> \b Scalar and \b Vector values assigned to the point (if any).</li>
</ul>
-\note Using this dialog box, you can examine the attributes of a
-definite point or cell, selected by its ID number. For that, you
-should only enter an ID number of a definite point or cell in the \b
+\note It is possible to examine the attributes of a
+definite point or cell, selected by its ID number. For that, input the ID number of a definite point or cell in the \b
ID field, the attributes of this point or cell will be immediately
displayed.
+Gauss points can be selected with the help of a special cursor with markers
+(pyramids). The cursor is dynamically generated so that the apexes
+of each pyramid touch the point sprite boundary, and the height of the
+pyramid is fixed.
+
+\image html image69.gif
+
+\n Once a point is selected, the presentation is centered around it.
+In the picture the already selected point is surrounded with yellow
+markers and the point touched by the cursor is surrounded with red markers.
+\image html selection6.png
+
+In addition, the active scalar bar is updated to highlight the
+corresponding value of the selected scalar value by a black line.
+
+The following information is displayed in the dialog box:
+
+\image html selection5.png
+
+<ul>
+<li> \b Mesh \b name - name of the mesh on which the presentation is built.</li>
+<li> \b Field \b name - name of the mesh on which the presentation is
+built.</li>
+<li> <b>Parent ID </b> - ID of the point within its parent mesh element.</li>
+<li> <b>Local ID </b> of the Gauss point.</li>
+<li><b>Display parent mesh element</b> - allows to visualize or hide
+the parent mesh element of the selected gauss point.</li>
+</ul>
+
+<b> Find group</b> and <b> Selection Preferences</b> button are common for
+all types of selectable objects.
+
+\image html selection7.png
+
+Here, it is possible to choose the mathematical formula, input
+values to limit the range of the selection and apply them with the
+checkmark button.
+Then the required element can be chosen from the list of elements
+fitting in the defined range.
+
+<b> Selection Preferences </b> button allows to customize selection preferences.
+
+\image html selection8.png
+
+<ul>
+<li>\b Cursor - allows to adjust the \b Size of the cursor (ranging from 0.1 to 1), the <b>Height of the pyramids</b>
+(ranging from 0 to 10) and the <b>Selection cursor color</b>. This
+control is relevant only for the selection of Gauss points.</li>
+<li>\b Tolerance - defines at which distance of the cursor from the
+point it becomes selected (ranges from 0.001 to 10).</li>
+<li><b>Information window</b> - allows to define the \b Transparency
+(from 0% = opaque to 100% = transparent) and \b Position of the
+window, which can be:</li>
+<ul>
+<li> \b Centred below the point, or </li>
+<li>located at <b>Top-left corner of the 3D view</b></li>
+</ul>
+<li><b>Movement of the Camera</b> can also be defined by the user.</li>
+<ul>
+<li><b>Zoom factor</b> - This value is used to define
+the focal distance at the first selected point (at the end of the
+movement of the camera). This value is a ratio that will be multiplied
+by the current zoom value.</li>
+<li><b>Number of steps</b> - defines the
+smoothness of camera movement at selection by the number of
+iterations between two positions. If set to 1 the camera is zoomed and centered at the point
+momentarily. Greater numbers mean very slow camera movement.</li>
+</ul>
+</ul>
+
+
*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page setting_properties_of_xy_plots_page Setting properties of XY plots
-
-\n <em>To define properties of XY plots:</em>
-\par
-Right-click on the background of the Plot 2d viewer. The following
-menu will appear:
-
-\image html image13.gif
-
-\par
-<b>Erase all</b> - hides all previously displayed curves from the viewer.
-\n \b Rename - allows to rename the object currently selected in the
-Object Browser (table, curve or XY plot).
-<br><br>
-\b Scaling gives you the possibility to select the scale (logarithmic
-or linear) for both axes.
-
-\image html image18.gif
-
-\par
-via <b>Fit Range</b> option you can access to the following menu:
-
-\image html fitdatarange.png
-
-\par
-<b>Curve Type</b> gives you the possibility to select the type for
-your curves.
-
-\image html image27.gif
-
-\par
-<b>Show Legend</b> triggers all labels on the graph.
-<br><br>
-<b>Settings</b> menu allows to adjust the representation of the graphs
-in the Plot 2d viewer.
-<br><br>
-<b>Dump View</b> - allows to save the current graph represented in the
-2D viewer in a graphic file.
-
-\image html dumpviewtofile.png
-
-\par
-<b>Change Background</b> - allows to change the background of the 2D
-viewer.
-
-*/
--- /dev/null
+/*!
+
+\page slider_page Slider
+
+\n \b Slider is allows animating Post-Pro field presentations in the
+most simple and efficient way. The presentations compatible with this
+functionality can be synchronized (in terms of timestamps) and moved
+along the time axis to reproduce the corresponding physical process.
+
+\b Slider also provides memory management possibilities, which allow the
+user to define a suitable compromise between the available computer
+resourses and the navigation performance.
+
+\n \ref animating_page is an earlier implementation of the same
+functionality. However, it provides some extended possibilities, such
+as saving presentations into AVI files.
+
+To activate \b Slider, in the Main menu select <b>View -> Windows ->
+Slider</b>
+
+\image html slider1.png
+
+\b Navigation tab provides possibilities for managing and running
+the animation:
+<ul>
+<li>The scroll bar allows to navigate through the
+timestamps. The values of the first and the last timestamps are
+displayed. </li>
+<li>The control buttons allow to launch or to end the sweeping, run it forward or backward,
+move to the next or the previous frame.</li>
+<li>The drop-down field to the left lists the timestamps by their order
+numbers from 1 to n. </li>
+<li>The drop-down field to the right lists the values
+of the timestamps. </li>
+<li>Cycled button allows to view the animation in the loop.</li>
+</ul>
+
+\image html slider2.png
+
+\b Properties tab allows setting memory management properties.
+<ul>
+<li> \b Minimal radio button commands the application to use a minimum
+amount of memory</li>
+<li> \b Limited radio button allows to set the upper limit for the
+amount of used memory.</li>
+<li> \b Used and \b Free fields allow to set target values for used
+and free memory.</li>
+<li> \b Speed scroll allows to set the speed of the presentation.</li>
+<ul>
+
+
+*/
\ No newline at end of file
\page stream_lines_page Stream Lines presentation
+\image html stream_lines.png "Example of Stream Lines presentation"
+
+
\n <b>Stream Lines</b> is a type of presentation transforming the
cells with vectors having most similar direction into lines . A
streamline can be thought of as the path that a massless particle
OK. Your presentation with scalar bar will be immediately displayed in
the viewer:
-\image html streamlinesprsnt.png
-
*/
\ No newline at end of file
+++ /dev/null
-/*!
-
-\page structure_of_med_objects_page Structure of MED objects
-
-\n In \b Post-Pro module 3d representations are constructed on the
-base of submeshes representing parts of a mesh, which is stored in
-form of MED objects in *.med files. Each MED object has its own
-user-defined structure.
-
-In general, the mesh represents an object including the following
-types of data:
-<ul>
-<li><em>Geometrical information: list of nodes, edges, faces and cells
-of the mesh;</em></li>
-<li><em>Information on the interpolation in accordance with resulting
-elements: the mesh should be compatible with chosen
-interpolation;</em></li>
-<li><em>Physical information: initial and boundary conditions. (Scalar
-or vector values applied to the cells of the mesh)</em></li>
-</ul>
-
-The structure of MED object has a tree-like form. It contains three
-main folders: \ref families_anchor "Families",
-\ref groups_anchor "Groups", \ref fields_anchor "Fields".
-
-\image html snapfgf.png
-
-<br>
-\anchor families_anchor
-<h2>Families</h2>
-
-From general point of view, the whole mesh is divided into \b families,
-submeshes created by the user. <em>Every \b family is composed of cells of a
-definite type - it can be Nodes, Edges, Faces or Cells</em>. The
-presentation created on the basis of a particular \b family will be
-composed of geometrical elements, corresponding to the type of cells
-of this \b family.
-
-<center>
-<table>
-<tr>
-<td><b>Type of cells (entities) of the family</b></td>
-<td><b>Geometrical element</b></td>
-</tr>
-<tr>
-<td>Nodes</td>
-<td>Points</td>
-</tr>
-<tr>
-<td>Edges</td>
-<td>Segments</td>
-</tr>
-<tr>
-<td>Faces</td>
-<td>Triangles, quadrangles</td>
-</tr>
-<tr>
-<td>Cells</td>
-<td>Any</td>
-</tr>
-</table>
-<em>Table of correspondence</em>
-</center>
-
-In the folder \b Families all families of the mesh are put into the
-following subfolders, defining the type of cells of the mesh: \b onNodes,
-\b onEdges, \b onFaces, \b onCells.
-\n These subfolders also represent submeshes of the mesh, which are
-composed of all cells of the mesh of this type.
-
-<br>
-\anchor groups_anchor
-<h2>Groups</h2>
-
-\b Groups combine different families independently of the type of
-cells, they are composed of.
-
-<br>
-\anchor fields_anchor
-<h2>Fields</h2>
-
-\b Fields represent the results of calculations (scalar or vector
-values), grouped together under one physical concept.
-\n These values are applied to the cells of a definite submesh, which
-is indicated in the Object Browser in the subfolder of the \b field.
-\n Most often the calculations are performed during some period of
-time. That's why \b fields include <b>Time Stamps</b>, representing
-the results of calculations in one definite moment. In \b Post-Pro
-field presentations are constructed basing on these <b>Time
-Stamps</b>. (See: \ref creating_field_presentations_page "Creating field presentations")
-
-*/
\ No newline at end of file
\n In \b Post-Pro there is an option allowing to display
pseudo-animation of a field presentation. For creation of this
pseudo-animation you should take one field presentation generated on
-the base of \n ONE Time Step (for comparison, \ref animating_page "Animation" is generated on
-the base of \n ALL Time Steps of a field). The frame displaying this
+the base of ONE Time Step (for comparison, \ref animating_page "Animation" is generated on
+the base of ALL Time Steps of a field). The frame displaying this
field presentation will be the \em basic. \b Post-Pro automatically
generates another frame displaying the \em initial field presentation,
which is composed of cells with \em minimum acceptable values regarding
displaying the \em basic field presentation will end it.
<em>To sweep a field presentation:</em>
-<ol>
-<li>\ref creating_field_presentations_page "Create a field presentation".</li>
-<li>Right-click on this presentation in the Object Browser or in the
-viewer.</li>
+\ref creating_field_presentations_page "Create a field
+presentation".
+
+In the Main menu select <b>View -> Windows -> Sweep</b>. The following
+dialog will appear.
-<li>From the pop-up menu select \b Sweep option.</li>
-</ol>
+\image html sweep1.png
+
+\b Navigation tab provides possibilities for managing and running
+the sweep:
+<ul>
+<li>Control buttons allow to launch or end the sweeping, run it forward or backward,
+move to the next or the previous frame.</li>
+<li> \b Cycled checkbox allows to view the sweep in the loop.</li>
+</ul>
+
+\image html sweep2.png
+
+\b Properties tab allows to set sweep properties.
+<ul>
+<li> \b Mode gives the choice between \b Linear, \b Sine and \b Cosine
+sweeping. </li>
+<li> <b>Number of steps</b> - allows to set the number of steps,
+which will compose the whole animation.</li>
+<li> <b>Step delay</b> - allows to set the time of representation of
+one step. </li>
+</ul>
+
+It is also possible to fast-launch \b Sweep with default parameters by
+right-clicking on the presentation in the Object Browser or in the
+viewer and selecting \b Sweep in the context menu.
+
+Default parameters for \b Sweep can be set in the Main menu in <b>File
+-> Preferences -> Post-Pro -> Sweep, Animation</b> tab
*/
\ No newline at end of file
\n <b>Table 3D</b> is a 3D graphic presentation of data contained in the table.
The relief and coloring of the resulting
presentation both correspond to the values contained in the table. The values from the first column of the
-table define X-axis. The values from the second to the last columns define Z-axis. Y increases with a fixed step starting from Y=0.
+table define X-axis. The values from the second to the last columns define Z-axis.
+Y increases with a fixed step starting from Y=0.
To successfully produce a Table 3D presentation, the table should not contain empty fields.
<em>To create a Table 3D presentation:</em>
</ul>
It is also possible to choose \b Wireframe or \b Shading \b Representation type, change
-such properties as \b Opacity and <b> Line Width </b> and <b> Translate </b> presentation from the context menu.
+such properties as \b Opacity and <b> Line Width </b> and <b> Translate </b> the presentation using the context menu.
/*!
-\page table_presentations_page Table presentations
-
-<ul>
-<li>\subpage about_tables_page</li>
-<li>\subpage importing_exporting_tables_page</li>
-<li>\subpage displaying_tables_page</li>
-<li>\subpage creating_tables_from_cut_lines_page</li>
-<li>\subpage table_3d_page</li>
-</ul>
+\page table_presentations_page DataTable object
+
+<b>DataTable object</b> is a way to represent a two-dimensional data array
+(data arranged in rows and columns) in Salome. Each column groups values expressed in certain measurement \b units.
+All \b columns and <b>rows</b> have </b>titles</b>. Tables can be \b
+rarefied, which means that some cells may be empty, without any
+values.
+
+<b>DataTable object</b> can be created directly, with the usage of a
+special programming API (this problem lies out of the scope of Salome
+GUI Help), or \subpage importing_exporting_tables_page "imported"
+from properly defined ACSII files.
+
+\note Alternatively, it is possible to create a table from
+the scalar values applied to the cells forming a \ref cut_lines_page "Cut Lines"
+presentation. Simply right-click on the presentation in the Object
+Browser or in the viewer and select <b>Create Table</b> from the pop-up menu.
+
+Tables are not displayed automatically. To view the imported table,
+right-click on it in the Object Brower and select <b>Show Table</b>
+in the context menu.
+
+\image html viewtable.png
+
+It is also possible to create
+\subpage table_3d_page "Table 3D presentation" basing on the table
+data and display it in the VTK viewer.
+
+Another way of exploiting table data is
+\subpage creating_curves_page "creating curves" and
+ \subpage creating_plot2d_page "displaying them in the Plot 2D viewer".
+Plot 2D viewer is described in the documentation on GUI module.
+
+
*/
\ No newline at end of file
\page vectors_page Vectors Presentation
+\image html vectors.png "Example of Vectors presentation"
+
\n <b>Vector Field</b> presentation visualizes vectors of the
corresponding cells of the mesh in graphical mode.
OK. Your presentation with scalar bar will be immediately displayed in
the viewer:
-\image html vectorsprsnt.png
-
*/
\page viewing_3d_presentations_page Viewing 3D presentations
+\n Each newly created presentation is displayed in the <b>VTK 3D
+Viewer</b>. <b>VTK 3D Viewer</b> is detailly described in the
+documentation on GUI module.
+\n To display an existing presentation, right-click on it in the
+Object Browser and select \b Show.
+
+\image html viewing3.png
+
+Right mouse-click on the Presentation gives access to the following
+options:
+
+\image html viewing1.png
+
+\note All parameters are context-sensitive: NOT all types of
+visualization and NOT all properties can be set for a certain 3D
+presentation.
+
<ul>
-<li>\subpage viewing_3d_presentations_intro_page</li>
-<li>\subpage translate_presentation_page</li>
-<li>\subpage clipping_page</li>
-<li>\subpage sweeping_page</li>
-<li>\subpage selection_info_page</li>
+<li><b>Hide all</b> - allows to hide all objects from the
+viewer.</li>
+<li><b>Edit</b> - allows to return to the menu where the presentation
+has been created and change its parameters.</li>
+<li><b>Filter by Scalars</b> - allows showing only the cells with
+values that fit into the defined <b>Scalar Range</b>.
+
+\image html viewing2.png
+
+In this menu, check in <b>Filter by scalar range</b> box and input
+the minimum and the maximum values for the <b>Scalar Range</b></li>
+
+\image html viewing4.png
+
+<li><b>Rename</b> - allows to rename the presentation.</li>
+<li><b>Copy</b> - allows to create a copy of the presentation in the
+same subfolder (time stamp) in the Object Browser.</li>
+
+<li><b>Hide</b> - allows to hide the selected presentation from the
+viewer.</li>
+<li>If selected in the Object Browser, <b>Hide</b> is replaced by
+<b>Show</b>, which allows to display the selected presentation in the
+viewer.</li>
+
+<li><b>Show Only</b> - allows to display only the selected
+presentation, hiding all other from the viewer.</li>
+<li><b>Representation</b> - allows to switch among the available
+representation types.
+
+\image html viewing10.png
+
</ul>
-*/
\ No newline at end of file
+\image html viewing5.png "Points"
+
+\image html viewing6.png "Surface"
+
+\image html viewing7.png "Wireframe"
+
+\image html viewing8.png "Insideframe - displays the wires lying within the object"
+
+\image html viewing9.png "Surfaceframe - displays wires and cells lying on the object surface"
+
+\image html viewing11.png "Feature edges - shows the contour of the object"
+
+\image html viewing12.png "Shrink"
+
+<b>Shading on</b> - colors the object in a realistic
+way, revealing its geometry, for example, by applying shadows to the inside regions; used togeter with \b Surface.
+
+<b>Shading off</b> - colors the object basing only on scalar values. </li>
+
+\anchor width_opacity_anchor
+<ul>
+<li>\b Properties</li>
+
+\image html viewing13.png
+<ul>
+<li>\b Opacity - allows to set the value of opacity of the
+presentation between 0 (transparent) and 100 (opaque).</li>
+<li><b>Line Width</b> - allows to set the width of lines representing
+edges of the presentation between 1 (thin) and 100 (thick).</li>
+</ul>
+<li>\ref translate_presentation_page "Translate Presentation" - allows
+to translate the presentation along coordinate axes.</li>
+<li>\ref clipping_page "Clipping Planes" - allows to create
+cross-section views of presentations.</li>
+<li>\ref sweeping_page "Sweep" - allows to display pseudo-animation of
+the presentation.</li>
+
+<li><b>Dump view</b> - exports an object from the viewer in bmp, png,
+jpg or jpeg image format.</li>
+<li><b>Change Background</b> - allows to change the properties of the
+background.</li>
+<li><b>View Operations</b> checkbox - shows or hides the VTK viewer
+toolbar. The information about the VTK viewer functionalities is
+available in the documentation on the GUI module.</li>
+<li><b>Recording operations</b> checkbox - shows or hides buttons used
+for \ref recording_page "Recording" </li>
+
+<li>The following menu items are added when the presentation is
+selected in the Object Browser</li>.
+<ul>
+<li> \b Delete - removes the presentation from the study.</li>
+<li> \b Refresh - updates the presentation in the VTK viewer </li>
+<li> \b Find - activates <b> Find Tool</b> described in the documentation
+on GUI module. </li>
+
+</ul>
+</ul>
+
+When you create several presentations of the same object, you may wish
+to see them simultaneously, which might be impossible, because they
+all are located at the same place. To solve this problem, right-click
+in the viewer and select <b>Arrange Actors</b> in the pop-up menu.
+
+\image html arrangeactors.png
+
+In \b Auto mode you specify along which \b Axis and at which
+<b>Relative Distance</b> the presentations should be lined up.
+
+\image html arrangeactors1.png
+
+In \b Manual mode you set the coordinates for each presentation
+separately.
+
+<br>
+Displaying several presentations at the same time may cause
+superposition of their scalar bars. To avoid this, check <b>Arrange
+Scalar Bars</b> radio button in the <b>Preferences -> Post-Pro ->
+Scalar Bar</b>. A separate scalar bar will be displayed for each
+presentation.
+\n Alternatively you may wish to merge the scalar bars to have a
+common scalar bar for all presentations. To do this, select several
+presentations or fields in the object browser, right-click and from
+the pop-up menu select <b>Merge Scalar Range</b>.
+\n To restore separate bars and scales for each module select <b>Use
+Field Range</b> from the same menu.
+
+*/
+++ /dev/null
-/*!
-
-\page viewing_3d_presentations_intro_page Viewing 3D presentations
-
-\n Each newly created presentation is displayed in the <b>VTK 3D
-Viewer</b>. <b>VTK 3D Viewer</b> is detailly described in the
-documentation on GUI module.
-\n To display an existing presentation, right-click on it in the
-Object Browser and select \b Display.
-
-Right mouse-click on the Presentation gives access to the following
-options:
-
-\image html image23.gif
-
-\note All parameters are context-sensitive: NOT all types of
-visualization and NOT all properties can be set for a certain 3D
-presentation.
-
-<ul>
-<li><b>Hide all</b> - allows to hide all objects from the
-viewer.</li>
-<li><b>Edit</b> - allows to return to the menu where the presentation
-has been created and change its parameters.</li>
-<li><b>Rename</b> - allows to rename the presentation.</li>
-<li><b>Copy</b> - allows to create a copy of the presentation in the
-same subfolder (time stamp) in the Object Browser.</li>
-<li><b>Hide</b> - allows to hide the selected presentation from the
-viewer.</li>
-<li><b>Display Only</b> - allows to display only the selected
-presentation, hiding all other from the viewer.</li>
-<li><b>Representation</b> - allows to switch among the available
-representation types.</li>
-</ul>
-
-\image html image20.gif
-<center><b>Points</b></center>
-
-\image html image5.jpg
-<center><b>Surface</b></center>
-
-\image html image2.jpg
-<center><b>Wireframe</b></center>
-
-\image html image3.jpg
-<center><b>Insideframe</b> (displays the wires lying within the object)</center>
-
-\image html image4.jpg
-<center><b>Shrink</b></center>
-
-\image html image1.jpg
-<center><b>Shading on</b></center>
-
-\anchor width_opacity_anchor
-<ul>
-<li>\b Properties</li>
-<ul>
-<li>\b Opacity - allows to set the value of opacity of the
-presentation between 0 (transparent) and 100 (opaque).
-
-\image html neo-transparency.png
-</li>
-
-<li><b>Line Width</b> - allows to set the width of lines representing
-edges of the presentation between 1 (thin) and 100 (thick).</li>
-</ul>
-<li>\ref translate_presentation_page "Translate Presentation" - allows
-to translate the presentation along coordinate axes.</li>
-<li>\ref clipping_page "Clipping Planes" - allows to create
-cross-section views of presentations.</li>
-<li>\ref sweeping_page "Sweep" - allows to display pseudo-animation of
-the presentation.</li>
-<li>\ref selection_info_page "Selection Info" - provides information
-about the attributes of elements displayed in the viewer.</li>
-<li><b>Dump view</b> - exports an object from the viewer in bmp, png,
-jpg or jpeg image format.</li>
-<li><b>Change Background</b> - allows to change the properties of the
-background.</li>
-</ul>
-
-When you create several presentations of the same object, you may wish
-to see them simultaneously, which might be impossible, because they
-all are located at the same place. To solve this problem, right-click
-in the viewer and select <b>Arrange Actors</b> in the pop-up menu.
-
-\image html arrangeactors.png
-
-In \b Auto mode you specify along which \b Axis and at which
-<b>Relative Distance</b> the presentations should be lined up.
-
-\image html arrangeactors1.png
-
-In \b Manual mode you set the coordinates for each presentation
-separately.
-
-<br>
-Displaying several presentations at the same time may cause
-superposition of their scalar bars. To avoid this, check <b>Arrange
-Scalar Bars</b> radio button in the <b>Preferences -> Post-Pro ->
-Scalar Bar</b>. A separate scalar bar will be displayed for each
-presentation.
-\n Alternatively you may wish to merge the scalar bars to have a
-common scalar bar for all presentations. To do this, select several
-presentations or fields in the object browser, right-click and from
-the pop-up menu select <b>Merge Scalar Range</b>.
-\n To restore separate bars and scales for each module select <b>Use
-Field Range</b> from the same menu.
-
-*/
+++ /dev/null
-/*!
-
-\page xy_plots_page XY plots
-
-<ul>
-<li>\subpage creating_curves_page</li>
-<li>\subpage creating_xy_plots_page</li>
-<li>\subpage setting_properties_of_xy_plots_page</li>
-</ul>
-
-*/
-<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
-<html>
-<head>
-</head>
-<body>
-<hr style="width: 100%; height: 2px;">
-<div style="text-align: center;">Copyright © 2003-2007 CEA, EDF<br>
-</div>
+ <hr style="width: 100%; height: 2px;">
+ <div style="text-align: center;">
+ Copyright © 2003-2009 CEA, EDF
+ <br>
+ </div>
</body>
</html>
