Due: , 11:59 pm
The purpose of this lab is to introduce the concept of a class--one of the foundational concepts of object-oriented design--and to give you practice with creating one.
This is the third part of a three-part project where we'll be simulating the elephant population in Kruger National Part, South Africa. This week we'll be focusing on re-writing the code to use classes. We'll create an Elephant class and a Simulation class.
If you have not already done so, mount your personal space, create a new Project7 folder and bring up TextWrangler and a Terminal. Then download the file elephant-template.py and rename it to elephant.py.
Note that the template gives you the outline of an Elephant class. By convention, class names are capitalized.
The first thing to do is to write the __init__() method. This should look a lot like the newElephant function you write two weeks ago. The major difference is that the elephant's attributes can now be stored in fields (variables in the self symbol table), instead of in the list structure used in previous labs.
Once you have finished the __init__ method, run elephant.py to test it. You should see the attributes of 20 elephants printed. If you put a print statement into the Elephant.__init__() method, you should see 20 lines of output in the Terminal.
Create the various "getter" (accessor) methods described in the template. Each of these methods should return the current value of the specified attribute. For example, the method getAge(self) should return self.age. When you finish these four methods, add code to the test function below to make sure they are working properly. Something like
print("age: ", e.getAge())
would work well inside the for loop in the test function.
Create the various evaluation methods. These include things like isFemale or isPregnant. These methods should return True if their attribute matches the query, otherwise False. The code shows the isFemale example. Similarly, isPregnant should return True if self.pregnant is not 0.
Add some code to your test function that uses these methods. Something like following, inside the for loop, works well.
print( "isFemale: ", e.isFemale() )
Next, create methods for setting each attribute. An example is again provided for age: setAge(self, a). Each "setter" (mutator) method will take self and then a value as the argument.
Add code to your test function that uses the "set" (mutator) methods to change a value and then prints it out. Something like the following, inside the for loop, works well.
e.setAge( 25 ) print( "age set to ", e.getAge() )
Finally, make the last three methods, which help the simulation to run by modifying the elephant attributes appropriately. After writing each method, add code to the test function that checks if they are working properly.
When you are done with the lab exercises, you may start on the rest of the project.
© 2019 Eric Aaron (with contributions from Colby CS colleagues).