...
When you first start Metview, you will see something like this:
This sort of window is called a Metview desktop.
...
Edit the newly-created icon by either double-clicking on it or else right-click, edit (double-clicking an icon performs the edit action for most icon types). This brings up the icon editor for coastline plotting. All user-selectable parameters for plotting coastlines are here. Set the following parameters:
Map Coastline Thickness | 2 |
Map Coastline Land Shade | On |
Map Coastline Land Shade Colour | Cream |
For colour-based parameters, there are two small arrows - the one on the right reveals a drop-down list of predefined colours (use this one); then one on the left reveals an advanced colour selection tool.
...
Create a new Geographical View icon and rename it to polar_europe. Edit the icon and change the following parameter:
Map Projection | Polar Stereographic |
Save the changes and visualise the icon. Drop the GRIB data icon into the Display Window to see it on the new map. It is also possible to visualise the GRIB icon and then drop the Geographical View icon into the plot to achieve the same effect. Have a look at some of the other projections on offer, then go back to polar stereographic.
...
Metview provides many ways to style the contours when plotting data. These are controlled via the Contouring icon. This is another visdef icon. Create a new instance of this icon and rename it to shade. Edit it, setting the following parameters:
Contour Shade | On |
Contour Shade Method | Area Fill |
Contour Shade Max Level Colour | Red |
Contour Shade Min Level Colour | Blue |
Contour Shade Colour Direction | Clockwise |
Apply the changes, visualise the data icon again (t1000.grb) and drag the shade icon into the Display Window.
...
Create a legend by changing the first parameter in the Contour editor and dragging the icon into the Display Window again:
Legend | On |
Fixing the Contour Levels
Now zoom in and out of different areas. What happens to the palette - does it stay constant? The default behaviour is to create contours at 10 levels within the range of data actually plotted. As the area changes, so does the range of values being plotted.
Let's create a palette which will not be altered when we change the area. Copy the shade icon (either right-click + duplicate, or drag with the middle mouse button), and rename the copy 'fixed_t' by clicking on its title. Edit the icon and make the following changes:
Contour Level Selection Type | Level List |
Contour Level List | -35/-20/-10/-5/0/5/10/20/35 |
Contour Shade Colour Direction | Clockwise |
Now when you apply this icon you will see that the palette is fixed wherever you zoom. There will probably be parts of the plot which are not filled; this is because our range of contour levels does not cover the whole range of values in the data. Change the list of contour levels so that the whole plot will be covered - you only need to add one number to each end of the level list to do this (or else change the current numbers at the ends of the list).
...
We will now change these isolines to black. Create a new Contouring icon and rename it to black_contour. Edit it and set the following:
Contour Line Thickness | 2 |
Contour Line Colour | Black |
Contour Highlight | Off |
Drop this into the Display Window - the result is not as intended! The new Contouring definition was applied to both fields, not just the geopotential. Close the Display Window and re-run the macro to get us back to the point before we added the geopotential. This time, select both the z500.grb and black_contour icons and drop them together into the Display Window. This forces the association between the data and the visual definition. You might want to remove the temperature isolines by setting Contour to Off in the macro.
...