diff --git a/docs/conf.py b/docs/conf.py index bbd933540..80e5e185d 100644 --- a/docs/conf.py +++ b/docs/conf.py @@ -226,7 +226,7 @@ def get_tutorial_images(): html_style = 'css/mss.css' else: htmls_static_path = ['_static'] - html_css_files = ['mss.css'] + html_css_files = ['css/mss.css'] html_context = { 'display_github': False, # Add 'Edit on Bitbucket' link instead of 'View page source' 'last_updated': True, diff --git a/docs/environment.yml b/docs/environment.yml index 8e703ec7b..2a0fbaf92 100644 --- a/docs/environment.yml +++ b/docs/environment.yml @@ -15,7 +15,7 @@ dependencies: - xstatic - defusedxml - sphinx_rtd_theme - - sphinxcontrib-video + - sphinxcontrib-video>=0.2.1 - sphinx - fs - netCDF4 diff --git a/docs/tutorial.rst b/docs/tutorial.rst index a188127e3..8fe213c4b 100644 --- a/docs/tutorial.rst +++ b/docs/tutorial.rst @@ -9,7 +9,7 @@ a `public share `_ Get familiar by some videos about the Mission Support System (MSS). - .. video:: _static/mp4/tutorial_waypoints.mp4 + .. video:: videos/mp4/tutorial_waypoints.mp4 :autoplay: :loop: :alt: This is the waypoints tutorial,i.e., whenever we are going to plan diff --git a/docs/tutorials/tutorial_hexagoncontrol.rst b/docs/tutorials/tutorial_hexagoncontrol.rst index 0c3dae428..a212a70e1 100644 --- a/docs/tutorials/tutorial_hexagoncontrol.rst +++ b/docs/tutorials/tutorial_hexagoncontrol.rst @@ -3,7 +3,7 @@ Table View and Hexagon Flight Patterns For tomographic imaging, a hexagonal flight pattern can be integrated by a docking widget of Table View - .. video:: ../_static/mp4/tutorial_hexagoncontrol.mp4 + .. video:: ../videos/mp4/tutorial_hexagoncontrol.mp4 :alt: Top View windows is opened (CTRL+H). We select the "global (cyl)" for the world map. Zooming in for the required region. diff --git a/docs/tutorials/tutorial_introduction_topview.rst b/docs/tutorials/tutorial_introduction_topview.rst index b4edd8a1f..b72815f05 100644 --- a/docs/tutorials/tutorial_introduction_topview.rst +++ b/docs/tutorials/tutorial_introduction_topview.rst @@ -3,7 +3,7 @@ Top View and Selecting of Layers Selection and display of different data in the Top View with the help of the layer chooser. - .. video:: ../_static/mp4/tutorial_wms.mp4 + .. video:: ../videos/mp4/tutorial_wms.mp4 :alt: When we open the Top View (CTRL+H) of the map, the Web Map Service is already opened by default. It collects its data from the server: "open-mss dot org" that provides demodata for the meteorological or atmospheric information as layer lists. diff --git a/docs/tutorials/tutorial_kml.rst b/docs/tutorials/tutorial_kml.rst index 5d8c3d951..68a85903a 100644 --- a/docs/tutorials/tutorial_kml.rst +++ b/docs/tutorials/tutorial_kml.rst @@ -3,7 +3,7 @@ Top View and KML Data es can be displayed in the Top View. Color and line width can be adjusted. - .. video:: ../_static/mp4/tutorial_kml.mp4 + .. video:: ../videos/mp4/tutorial_kml.mp4 :alt: Open the TopView (CTRL+H) After clicking on "(select to open control)", click on KML OVERLAY. The UI will look as shown. KML files can be used to show the geographical boundary which helps in planning the WAY POINTS. @@ -23,4 +23,4 @@ es can be displayed in the Top View. Color and line width can be adjusted. Changing it for some time... Now, we change line width by changing its numerical value whose range is 0 to 10. We change it to different values to obtain different linewidths. - The top view is closed and the tutorial ends. \ No newline at end of file + The top view is closed and the tutorial ends. diff --git a/docs/tutorials/tutorial_mscolab.rst b/docs/tutorials/tutorial_mscolab.rst index c4164fa9c..7d9cb4a92 100644 --- a/docs/tutorials/tutorial_mscolab.rst +++ b/docs/tutorials/tutorial_mscolab.rst @@ -5,7 +5,7 @@ Using the different views of the MSUI with a fictitious flight path and demo dat In comparison to the standalone mode of the MSUI an example setup of users is shown on a MSColab server and the possibilities of interactions. - .. video:: ../_static/mp4/tutorial_mscolab.mp4 + .. video:: ../videos/mp4/tutorial_mscolab.mp4 :alt: MSColab stores data in an online server, and can be used to access the data remotely as also working in a team where everyone contributes his part. It is used for collaborating with the users as a team together and working on a shared MSColab operation. diff --git a/docs/tutorials/tutorial_msui_views.rst b/docs/tutorials/tutorial_msui_views.rst index 7e1ba7dcd..27910e9ab 100644 --- a/docs/tutorials/tutorial_msui_views.rst +++ b/docs/tutorials/tutorial_msui_views.rst @@ -4,7 +4,7 @@ Introduction to MSUI Using the different views of the MSUI with a fictitious flight path and demo data. - .. video:: ../_static/mp4//tutorial_views.mp4 + .. video:: ../videos/mp4/tutorial_views.mp4 :alt: Lets look at the tutorial of the various views required for flight planning: Top View (CTRL+H), Side View (CTRL+V), Linear View (CTRL+L) and Table View (CTRL+T). At first, lets open Top View and Side View. diff --git a/docs/tutorials/tutorial_performance_settings.rst b/docs/tutorials/tutorial_performance_settings.rst index 82954355a..59820e2c2 100644 --- a/docs/tutorials/tutorial_performance_settings.rst +++ b/docs/tutorials/tutorial_performance_settings.rst @@ -3,7 +3,7 @@ Table View and Aircraft Performance Data The range-specific data of an aircraft can be taken into account in Tableview for flight planning. - .. video:: ../_static/mp4/tutorial_performancesettings.mp4 + .. video:: ../videos/mp4/tutorial_performancesettings.mp4 :alt: This is the Performance Settings dockwidget opened in the Table View (CTRL+T) of the MSS software where by putting and changing some parameters, we can evaluate the performance of the aircraft. Parameters like Flight Altitude, Aviation fuel, Aircraft weight, Maximum take off weight diff --git a/docs/tutorials/tutorial_remotesensing.rst b/docs/tutorials/tutorial_remotesensing.rst index e1a1d1253..65d1dbf4e 100644 --- a/docs/tutorials/tutorial_remotesensing.rst +++ b/docs/tutorials/tutorial_remotesensing.rst @@ -4,7 +4,7 @@ Top View and Remotesensing Tools In order to be able to take into account the viewing angle and solar level for measuring instruments, the remotesensing tools are used - .. video:: ../_static/mp4/tutorial_remotesensing.mp4 + .. video:: ../videos/mp4/tutorial_remotesensing.mp4 :alt: This is the Remote Sensing Section of the Top View. It shows the position and angle of the flight from any particular object in the sky. Azimuth is the forward direction line of the flight. If we go above tHE AZIMUTH, angle is in positive, diff --git a/docs/tutorials/tutorial_satellitetrack.rst b/docs/tutorials/tutorial_satellitetrack.rst index 04561d811..7c6b55550 100644 --- a/docs/tutorials/tutorial_satellitetrack.rst +++ b/docs/tutorials/tutorial_satellitetrack.rst @@ -4,7 +4,7 @@ Top View and Satellite Overflight To combine a flight path with a satellite overflight, the remotesensing widget is used. - .. video:: ../_static/mp4/tutorial_satellitetrack.mp4 + .. video:: ../videos/mp4/tutorial_satellitetrack.mp4 :alt: This is Satellite Tracking Prediction System that can be used to check the accuracy of the path travelled by a Satellite by the help of data collected from different space agencies and planning a flight accordingly. diff --git a/docs/tutorials/tutorial_waypoints.rst b/docs/tutorials/tutorial_waypoints.rst index e43d21f3d..87938a01c 100644 --- a/docs/tutorials/tutorial_waypoints.rst +++ b/docs/tutorials/tutorial_waypoints.rst @@ -3,7 +3,7 @@ Top View Drawing Waypoints Waypoints for a flight path are defined, shifted and deleted. - .. video:: ../_static/mp4/tutorial_waypoints.mp4 + .. video:: ../videos/mp4/tutorial_waypoints.mp4 :alt: This is the waypoints tutorial,i.e., whenever we are going to plan a flight track, we have to place the waypoints in some places and, form a flight path.