Python utilities for data manipulation and management.
Via github:
~$ git clone http://github.com/bprinty/gems.git
~$ cd gems
~$ python setup.py install
Via pip:
~$ pip install gems
Documentation for the package can be found here.
The gems module provides specialized data structures to augment development. It's similar to the collections module, but contains different types of objects.
Currently, the following objects are available (this list will grow with time and feedback):
Name | Description |
---|---|
composite | JSON-like data structure for easy data traversal. |
filetree | JSON-like data structure for easy filesystem traversal. |
The composite
object abstracts away the complexity associated with managing heavily nested JSON-based structures, allowing easier access to internal properties, and providing operators that work with the data in an intuitive way. Here is a simple example of how to use the composite
type in a project:
>>> from gems import composite
>>>
>>> data = composite({
>>> 'one': 1,
>>> 'two': [1, 2, 3],
>>> 'three': ['one', 2, {'three': 'four'}],
>>> 'four': {'five': [6, 7, 8], 'nine': 10, 'eleven': 'twelve'}
>>> })
>>> data.four.five[1] == 6
True
>>> data.two[0] == 1
True
In the example above, an arbitrary data structure is provided as an argument to the composite
object, and is transformed into an object where properties can be traversed more gracefully (syntactically). You can also load a composite object from a json or yaml file like so:
>>> from gems import composite
>>>
>>> with open('data.json', 'r') as fi:
>>> data = composite.load(fi)
>>>
>>> print data.four.five[1]
6
>>>
>>> with open('data.yml', 'r') as fi:
>>> data = composite.load(fi)
>>>
>>> print data.four.five[1]
6
There are also operations tied to composite
objects. If two composite objects or a composite object and another similar type are added, you get a composite
object as a result that combines the objects in an intuitive way:
>>> # using the 'data' object from above
>>> obj = data + {'five': 6}
>>> obj.five == 6
True
>>> obj.two === [1, 2, 3]
True
>>> obj = data + [1, 2, 3]
>>> obj[0].one.two[0] == 1
True
>>> obj[1][1] == 2
True
>>> data2 = composite([
1, 2, 3, {'four': 5}
])
>>> obj = data2 + {'five': 6}
>>> obj[0][0] == 1
True
>>> obj[0][2].four == 5
True
>>> obj = data2 + ['seven', 8, 9]
>>> obj[4:6] == ['seven', 8]
True
Other operations like this also can be used with the composite
object. For example:
>>> # using the 'data' object from above
>>> 'three' in data
True
>>> 7 in data.four.five
True
>>> data.four.five == [6, 7, 8]
True
>>> data == data2
False
Traversal of a filetree is typically a pain in python. You could use os.path.walk
to within a recursive function to accomplish it, but there should be an easier way. That's where the gems.filetree
comes in handy. Here is an example of how to use the gems.filetree
type in a project:
>>> from gems import filetree
>>>
>>> # mydir is a directory with the structure below
>>> ftree = filetree('mydir')
>>> print ftree
mydir/
one/
two.txt
three.json
two/
three/
four.txt
five six/
seven.txt
eight.config
The gems.filetree
structure also allows for traversal of the file data like so:
>>> print data.one['two.txt']
/full/path/to/mydir/one/two.txt
>>>
>>> print data.two.three['four.txt']
/full/path/to/mydir/two/three/four.txt
>>>
>>> print data.two['five six']['eight.config']
/full/path/to/mydir/two/five six/eight.config
Using JSON-based access is much easier and cleaner than doing many os.path.join
operations to create the full paths to objects on your filesystem.
File an issue in the GitHub issue tracker.