Please open notebook rsepython-s3r2.ipynb
We will often want to save our Python classes, for use in multiple Notebooks.
We can do this by writing text files with a .py extension, and then importing
them.
You can use a text editor like Atom, https://atom.io, for Mac or Notepad++, https://notepad-plus-plus.org, for Windows to do this.
If you create your own Python files ending in .py, then you can import them with import
just like external libraries.
You can also maintain your library code in a Notebook, and use %%writefile to create your library, though this is not encouraged!
Libraries are usually structured with multiple files, one for each class.
We will be turning the code we have written for the maze into a library, so that other code can reuse it.
We group our modules into packages, by putting them together into a folder. You can do this with explorer, or using a shell, or even with Python:
import os
if 'mazetool' not in os.listdir(os.getcwd()):
os.mkdir('mazetool')
%%writefile mazetool/maze.py
from .room import Room
from .person import Person
class Maze(object):
def __init__(self, name):
self.name = name
self.rooms = []
self.occupants = []
def add_room(self, name, capacity):
result = Room(name, capacity)
self.rooms.append(result)
return result
def add_exit(self, name, source, target, reverse= None):
source.add_exit(name, target)
if reverse:
target.add_exit(reverse, source)
def add_occupant(self, name, room):
self.occupants.append(Person(name, room))
room.occupancy += 1
def wander(self):
"Move all the people in a random direction"
for occupant in self.occupants:
occupant.wander()
def describe(self):
for occupant in self.occupants:
occupant.describe()
def step(self):
house.describe()
print()
house.wander()
print()
def simulate(self, steps):
for _ in range(steps):
self.step()
Writing mazetool/maze.py
%%writefile mazetool/room.py
from .exit import Exit
class Room(object):
def __init__(self, name, capacity):
self.name = name
self.capacity = capacity
self.occupancy = 0
self.exits = []
def has_space(self):
return self.occupancy < self.capacity
def available_exits(self):
return [exit for exit in self.exits if exit.valid() ]
def random_valid_exit(self):
import random
if not self.available_exits():
return None
return random.choice(self.available_exits())
def add_exit(self, name, target):
self.exits.append(Exit(name, target))
Writing mazetool/room.py
%%writefile mazetool/person.py
class Person(object):
def __init__(self, name, room = None):
self.name=name
self.room=room
def use(self, exit):
self.room.occupancy -= 1
destination=exit.target
destination.occupancy +=1
self.room=destination
print(self.name, "goes", exit.name, "to the", destination.name)
def wander(self):
exit = self.room.random_valid_exit()
if exit:
self.use(exit)
def describe(self):
print(self.name, "is in the", self.room.name)
Writing mazetool/person.py
%%writefile mazetool/exit.py
class Exit(object):
def __init__(self, name, target):
self.name = name
self.target = target
def valid(self):
return self.target.has_space()
Writing mazetool/exit.py
In order to tell Python that our “mazetool” folder is a Python package,
we have to make a special file called __init__.py
. If you import things in there, they are imported as part of the package:
%%writefile mazetool/__init__.py
from .maze import Maze # Python 3 relative import
Writing mazetool/init.py
We just wrote the files, there is no “Maze” class in this notebook yet:
myhouse=Maze('My New House')
—————————————————————————
NameError Traceback (most recent call last)
<ipython-input-7-6f6949a03c24> in
—-> 1 myhouse=Maze(‘My New House’)
NameError: name ‘Maze’ is not defined
But now, we can import Maze, (and the other files will get imported via the chained Import statements, starting from the __init__.py
file.
import mazetool
Let’s see how we can access the files we created:
mazetool.exit.Exit
mazetool.exit.Exit
from mazetool import Maze
house=Maze('My New House')
living=house.add_room('livingroom', 2)
Note the files we have created are on the disk in the folder we made:
import os
os.listdir(os.path.join(os.getcwd(),'mazetool') )
[‘person.py’, ‘init.py’, ‘pycache’, ‘maze.py’, ‘exit.py’, ‘room.py’]
You may get also .pyc
files. Those are “Compiled” temporary python files that the system generates to speed things up. They’ll be regenerated on the fly when your .py
files change. They may appear inside the __pycache__
directory.
We want to import
these from notebooks elsewhere on our computer:
it would be a bad idea to keep all our Python work in one folder.
The best way to do this is to learn how to make our code into a proper module that we can install.
Alternatively, we can add a folder to the “Python Path”, where python searches for modules:
import sys
print('\n'.join(sys.path[-3:]))
/usr/local/lib/python3.5/site-packages/argparse-1.1-py3.5.egg
/usr/local/lib/python3.5/site-packages/IPython/extensions
/Users/ucl-rits/.ipython
from pathlib import Path
sys.path.append(os.path.join(Path.home(), 'devel', 'libraries', 'python'))
print(sys.path[-1])
/home/ucl-rits/devel/libraries/python
I’ve thus added a folder to the list of places searched. If you want to do this permanently, you should set the PYTHONPATH Environment Variable, which you can learn about in a shell course, or can read about online for your operating system.
Next: Reading - Argparse