A Little More Python
A procedure is a named block of statements that performs an operation. Instead of writing each time:
print('Python is not a snake!') print('Python is a programming language!')
You can write a procedure using a
def statement, followed by a name, a
parameter list (representing zero or more comma-separated parameters)
and a block of statements:
def explain_python(): """Print a message explaining what Python is.""" print('Python is not a snake!') print('Python is a programming language!')
Note that the first thing in the body of the procedure is a string that explains what the procedure does. This is the doc string and is used as part of the online help in the Python environment. It is a good idea to get into the habit of always including a doc string in your procedure definitions to document the parameters and return value of the procedure and any side effects (like printing) it might have. We often use the triple quoted string as above to allow newlines in the doc string.
To define this procedure you can just copy and paste the above code into the Python command line (we'll look later at saving it in a file). The procedure can then be called just like any built in procedure:
>>> explain_python() Python is not a snake! Python is a programming language!
Procedures are values that can be assigned to variables.
>>> perl = explain_python # make a copy of the procedure and call it perl >>> perl() Python is not a snake! Python is a programming language!
As with other programming languages, procedures are an important abstraction when writing code. The above example is trivial but in general a procedure will do an identifiable piece of work in your program. Writing something as a procedure allows you to re-use the code several times but it also allows you to break down your problem into parts that can be solved separately. Deciding when to use a procedure for a part of your problem is something you will learn as you become a better programmer.
The following procedure checks whether a number is a prime number. It
uses one parameter (
n) in the parameter list and a
def is_prime_number(n): """Return True if n is a prime number, False otherwise""" count = n / 2 while count > 1: if n % count == 0: return False count -= 1 return True
The return value is the result of the procedure that is sent back to the
caller of the procedure. In our case the value is a boolean value,
>>> is_prime_number(7) True >>> is_prime_number(4) False
Note that unlike Java or C++, the parameters do not have associated type declarations, again this is because Python is a dynamically typed language and we don't need to specify the types of variables. This means that I could call the above procedure with a string instead of an integer, this would cause a run-time type error:
>>> is_prime_number("yes") Traceback (most recent call last): File "<console>", line 1, in <module> File "<console>", line 2, in is_prime_number TypeError: unsupported operand type(s) for /: 'str' and 'int'
The error message says that you can't use the
/ operator on a string
and an integer. If this were Java or C++, this error would have been
caught at compile time, with Python we need to do the checks ourselves.
Python Program Structure
Once you are writing procedures in Python you should move beyond just
typing commands at the command line and start storing your programs in
files. You can do this without learning anything new, just enter the
Python code you typed into the command line in a file and save it in a
file ending in
.py. You can then run the code by passing the file name
to the Python interpreter. So, take the first example from the last
section, we define a procedure called
explain_python and then call it;
let's store these commands in a file
def explain_python(): """Print a message explaining what Python is.""" print('Python is not a snake!') print('Python is a programming language!') explain_python()
Now at the system command line (eg. the Terminal if you're on OSX, the Command Prompt if you're on Windows) you can pass the file name to the python interpreter:
C:\Users\Steve> c:\Python33\python.exe explain.py # or on OSX steve> python3 explain.py
Note that on Windows you might have to give the full path to python.exe if it's not in your PATH, on OSX you shouldn't need to do that. In either case, Python will run the commands which define the procedure and then call it and you should see the appropriate messages.
If you are working in Eclipse, running is even easier. Eclipse with PyDev installed provides a Run menu (and a green Run button) where you will find a Run As option. This should allow you to select "Python Run" from that menu and your program will be executed by sending it to the Python interpreter. Eclipse captures the output and shows it to you in the console. The big advantage of using Eclipse is that if there are errors when running your code, it will provide clickable links to let you jump to their location. To run your code for a second time, you can usually just hit the green run button and it will re-do the previous run.
That's not the full story however. In general, Python programs are made up of more than one file. It's generally good practice to split your code up into modules (files) with a common function, so you might put all of your database code in one module and your input/output code in another. When you do this, you will typically also have a main module which calls the procedures defined in the others. We won't be looking at programs that need multiple modules until later but there's one habit that you should get into now that will prepare you for that time.
Python doesn't have any concept of a main procedure like Java or C++ do. So when you execute a file like the one above it just defines all the procedures and runs all the commands that are included in the file. The main part is really any command that's not inside a procedure. This is generally fine but if you ever wanted to import the above module into another program, the Python interpreter would still run the commands - so you would get your printed explanation whenever the module was imported. To guard against this, there is a convention in Python programs to put the main part of your program inside an if statement like so:
def explain_python(): """Print a message explaining what Python is.""" print('Python is not a snake!') print('Python is a programming language!') if __name__=='__main__': explain_python()
The test on the if statement uses a built in variable
is set by the interpreter to have a different value depending on how
this module (file) is being used. If the module is the one being run by
the interpreter, the value of
__name__ will be the string
'__main__', but if this module is being imported into another program,
the value of
__name__ will be the name of this module (that is,
'explain' if you called the file
If that's a bit confusing, don't worry too much. The important thing is that you use the construct above to contain any calls to procedures that you want to use in your program. You'll see more examples as we go through more details of the language.
Go through the procedure examples in the previous section and save them all in a single file
examples.py. At the end of the file use an
if __name__=='__main__':block to write test calls to all the procedures, printing out the results.
Write a pair of modules (this.py and that.py) and import one into the other to see the different values of the
__name__variable. Each one could define a procedure to print out the value of
__name__. The code for
this.pycould look like this:
def this(): """show me the __name__""" print('This name is ', __name__) if __name__=='__main__': import that that.that()
The code for
that.pywould be similar with this and that switched around. Run each file and note the values of
__name__that are displayed.
More on Procedures
In Python, it is possible to specify default values in the parameter list of a procedure, for example, this procedure computes the power of an input value, the power defaults to 2:
def power(x, y=2): """Return x to the power of y, y defaults to 2 if not provided""" r = 1 for i in range(y): r = r * x return r
You can then call this procedure with one or two values, if the second value is not provided, the default value is used:
>>> power(3) 9 >>> power(3,3) 27
In Python, you can pass a keyword argument to a procedure by using the corresponding parameter name (if you like). Let's take the following procedure:</>
def display(name, age, sex): """Print out name, age and sex in a nice format.""" print('Name: ', name) print('Age: ', age) print('Sex: ', sex)
You can call this procedure in the following ways - with or without the parameter names ("name", "age" and "sex"):
>>> display('John', 23, 'male') Name: John Age: 23 Sex: male >>> display(name='John', age=23, sex='male') Name: John Age: 23 Sex: male >>> display(age=23, name='John', sex='male') Name: John Age: 23 Sex: male >>> display('John', sex='male', age='23') Name: John Age: 23 Sex: male
You can also write a procedure in such a way that it can accept an arbitrary number of values:
def sum(*args): r = 0 for i in args: r += i return r
Here the parameter
*args accepts an arbitrary number of values and
will be a tuple in the procedure for further processing, as you can see
in the example which computes the sum of the values passed in. You can
call this procedure in the following ways:
>>> sum(5, 6, 8) 19 >>> sum(3, 3, 3, 3, 3) 15
Let's talk about the scope of variables: a variable defined in the body of a procedure has local scope and is therefore only valid within the procedure. You can access the content of a global variable inside the body of a procedure. But if you want to change a global variable within a procedure, you have to use the "global" keyword. Here is an example that illustrates the use of a "global" variable within a procedure:
def demo(): """Demonstrate variable scope""" global name name = 'John' sex = 'Male' print('Within the procedure:', name, age, sex) name = 'Monkey' age = 50 sex = 'Female' print('Outside the procedure:', name, age, sex) demo() print('Outside the procedure:', name, age, sex)
The output of this program looks as follows:
Outside the procedure: Monkey 50 Female Within the procedure: John 50 Male Outside the procedure: John 50 Female
Note that the global variable
name was modified inside the procedure
because of the global declaration. The global
sex was not changed
because without the global declaration in the procedure, Python creates
a local version to shadow the global variable. The value of the global
age can be used within the procedure without a global declaration, as
long as we don't want to modify it.
Write a procedure that takes a string and returns the number of words in the string. Make sure that the procedure as a doc-string that explains the argument and the return value.
Show how to call the procedure to work out how many words are in this question.
Write a procedure to test whether a string is a palindrome - that is it reads the same forwards as backwards. The procedure should take a string and return True if it is a palindrome and False otherwise. Include some tests of your procedure in your answer: examples of calling the procedure with various strings to check that it works as expected.
Write a procedure 'splitwords' that takes a string and returns a list of the words in that string.
Write a second procedure 'censor' that takes a list of words and returns a new list where every second word is replaced with "****".
>>> words = splitwords("this is my string") >>> censor(words) ['this', '****', 'my', '****']
Write a procedure to count the frequency of occurrence of words in a string. It should return a dictionary containing the words as keys and the frequency count as data. Eg:
>>> s = "some string...that's long" >>> freq = fcount(s) >>> freq['the'] 12 >>> freq['string'] 1
The basic idea is to increment the count if the word is already in the dictionary and initialise it to 1 if it's not.
The most common way to read from a file, is to open it and then to iterate over the lines of the file in the following way:
f = open('myfile.txt','r') for line in f: print(line) f.close()
The built-in procedure
open takes two paramters, the first is the file
name to open, the second is a mode string. The mode string can be "r" to
read data, "w" to write data, "rw" to read and write and "a" for
appending data to the end of an existing file. When you are finished
reading or writing from a file, you should close it, if you don't close
it, Python may not actually write the file on disk since it caches file
contents in memory to improve execution speed. If you cannot read from a
file, Python rises a
If you want to read all lines from a file and return them in a list of
strings, you can use the
readlines method as follows:
f = open('myfile.txt','r') lines = f.readlines() print(lines) f.close()
There are similar methods for writing a string to an open file: the
write() writes a string to a file and the method
writes a list of strings to a file. Note that these two methods do not
add a newline (
\n) to the strings.
Copyright © 2009-2012, Rolf Schwitter, Steve Cassidy, Macquarie University
Python Web Programming by Steve Cassidy is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.