More changes to readme.rst

Tue, 09 Oct 2012 11:50:24 +0200

author
ulalume3 <binietoglou@imaa.cnr.it>
date
Tue, 09 Oct 2012 11:50:24 +0200
changeset 7
29a21837f51c
parent 6
9f251fc37530
child 8
7f983daf3383

More changes to readme.rst

readme.rst file | annotate | diff | comparison | revisions
--- a/readme.rst	Tue Oct 09 11:48:01 2012 +0200
+++ b/readme.rst	Tue Oct 09 11:50:24 2012 +0200
@@ -29,41 +29,40 @@
 ------------------
 
 Once you have made the above setup you can start using it. The best way to understand how it works is through an interactive shell (I suggest ipython(http://ipython.org/)).  In the following example I use the cf_raymetrics setup::
-    import glob # This is needed to read a list of filenames
-    from lidar import cf_raymetrics #If you have saved the files in a directrory called “lidar”
+   import glob # This is needed to read a list of filenames
+   from lidar import cf_raymetrics #If you have saved the files in a directrory called “lidar”
 
-    # Go to the folder where you files are stored
-    cd /path/to/lidar/files
+   # Go to the folder where you files are stored
+   cd /path/to/lidar/files
 
-    # Read the filenames
-    files  = glob.glob('*') # The * reads all the files in the folder.
+   # Read the filenames
+   files  = glob.glob('*') # The * reads all the files in the folder.
 
-    #Read the files
-    my_measurement = cf_raymetrics.CfLidarMeasurement(files)
+   #Read the files
+   my_measurement = cf_raymetrics.CfLidarMeasurement(files)
 
-    #Now the data have been read, and you have a measurement object to work with:
-    # See what channels are present
-    print my_measurement.channels
+   #Now the data have been read, and you have a measurement object to work with:
+   # See what channels are present
+   print my_measurement.channels
 
-    #Quicklooks of all the channels
-
-    my_measurements.plot()
+   #Quicklooks of all the channels
+   my_measurements.plot()
 
 Converting to SCC format
 --------------------------------
 
 There are some extra info you need to put in before converting to SCC format, 'Measurement_ID', 'Temperature', 'Pressure'::
-    my_measurement.info['Measurement_ID'] = “20101229op00”
-    my_measurement.info['Temperature'] = “14”
-    my_measurement.info['Pressure'] = “1010”
+   my_measurement.info['Measurement_ID'] = “20101229op00”
+   my_measurement.info['Temperature'] = “14”
+   my_measurement.info['Pressure'] = “1010”
 
 You can use standard values of temperature and pressure by just calling::
-    my_measurement.get_PT() 
+   my_measurement.get_PT() 
 
 The standard values can be changed in generic.py. Search the  get_PT method and change of what is appropriate for your station. If you have an external source of temperature and pressure information (a meteorological station) you can automate this by overriding the get_PT method in your system's class (in our example in the cf_raymetrics.py file).
 
 After you have used this extra input, you save the file using this command::
-    my_measurement.save_as_netcdf(“filename”)
+   my_measurement.save_as_netcdf(“filename”)
 
 where you change the filename to the filename you want to use.
 

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