PythonDataAccess: Difference between revisions
No edit summary |
|||
Line 23: | Line 23: | ||
==ASCII Files in Basic Python== | ==ASCII Files in Basic Python== | ||
Python provides easy basic file access. Grab our example_file.txt for the following example. | Python provides easy basic file access. Grab our [[File:example_file.txt]] for the following example. | ||
Open a file like so: | Open a file like so: |
Revision as of 13:22, 2 November 2011
Back to the PythonOverview.
Preface
In addition to manipulating your data, you need some way to save and access it. Here we look at saving and loading files. We'll have a look at how to save and load ASCII data from disk, then how to quickly save and load more complex collections using pickle, and access to astronomical FITS data (or at least CASA images) via CASA. We'll begin by looking at how to get input from the user.
Input
Input can be accepted from the command line (or a script paused) using the raw_input command. Use this to query the user or to put a pause inside a script. "raw_input" returns the user input as its output:
verb = raw_input("Give me a verb: ")
noun = raw_input("Give me a noun: ")
and you can then use these as you would any other string variable:
mad_lib = "More fun than "+verb+"ing a "+noun
print mad_lib
ASCII Files in Basic Python
Python provides easy basic file access. Grab our File:Example file.txt for the following example.
Open a file like so:
a_file = open("example_file.txt", "r")
r - means read, w means write. You can do both at once if you want. Read up for more.
Now that it's open we can read the lines in the file into a list like so:
lines = a_file.readlines()
print lines
We could have read a single line with readline() or only a fixed set of bytes with read()
Close the file
a_file.close()
We can also write using similar syntax (use an extra "a" to append):
a_new_file = open("new_file.txt", "w")
a_new_file.writelines(lines)
a_new_file.close()
import os
os.system('cat new_file.txt')
note that you need to convert to strings before writing.
Pickling
It's possible to directly save and load variables from a file (without making them into strings and worrying about parsing).
import pickle
Make a dictionary
a_dict = {"field1":100,
50:[1,2,3,5],
3.14:"hello"}
Save the dictionary
f = open("pickle.jar","w")
p = pickle.Pickler(f)
p.dump(a_dict)
f.close()
Go ahead and have a look at what it's doing.
import os
os.system("cat pickle.jar")
ascii but not english.
Get the stuff back
f = open("pickle.jar","r")
u = pickle.Unpickler(f)
read_back = u.load()
f.close()
print a_dict
print read_back
There's also a more compact syntax to just load and dump directly from a file. Options allow binary instead of ascii writing. And there's a faster version called cPickle.
Pickle is stack-based by the way, so:
a = 1
b = 2
c = 3
Save the dictionary
f = open("another_pickle.jar","w")
p = pickle.Pickler(f)
p.dump(a)
p.dump(b)
p.dump(c)
f.close()
Get the stuff back
f = open("another_pickle.jar","r")
u = pickle.Unpickler(f)
var1 = u.load()
var2 = u.load()
var3 = u.load()
... a variable too far:
var4 = u.load()
uhoh!
f.close()
print var1, var2, var3
Of course the disadvantage of pickling is that you need to unpickle it. This is not a generic format to save data and share with other people.
FITS Access via CASA
UV and Meta-data Access via CASA
Other Approaches
You don't need to waste a lot of effort duplicating previous work on reading and writing text files. Adam Ginsburg's "readcol.py" (loosely patterned after the IDL version, linked from the page) will save you a lot of effort. The package astroasciidata also looks promising but I have not yet gotten a chance to experiment with it.