Short Introduction to Programming in Python
Overview
Teaching: 30 min
Exercises: 5 minQuestions
How do I program in Python?
How can I represent my data in Python?
Objectives
Describe the advantages of using programming vs. completing repetitive tasks by hand.
Define the following data types in Python: strings, integers, and floats.
Perform mathematical operations in Python using basic operators.
Define the following as it relates to Python: lists, tuples, and dictionaries.
Refresher (hopefully!)
Hopefully, everything on this page should be familiar to everyone on this course! There’s a chance some of the attendees may not have have done the functions episode
Interpreter
Python is an interpreted language which can be used in two ways:
- “Interactively”: when you use it as an “advanced calculator” executing
one command at a time. To start Python in this mode, execute
python
on the command line:
$ python
Python 3.5.1 (default, Oct 23 2015, 18:05:06)
[GCC 4.8.3] on linux2
Type "help", "copyright", "credits" or "license" for more information.
>>>
Chevrons >>>
indicate an interactive prompt in Python, meaning that it is waiting for your
input.
2 + 2
4
print("Hello World")
Hello World
- “Scripting” Mode: executing a series of “commands” saved in text file,
usually with a
.py
extension after the name of your file:
$ python my_script.py
Hello World
Introduction to variables in Python
Assigning values to variables
One of the most basic things we can do in Python is assign values to variables:
text = "Data Carpentry" # An example of assigning a value to a new text variable,
# also known as a string data type in Python
number = 42 # An example of assigning a numeric value, or an integer data type
pi_value = 3.1415 # An example of assigning a floating point value (the float data type)
Here we’ve assigned data to the variables text
, number
and pi_value
,
using the assignment operator =
. To review the value of a variable, we
can type the name of the variable into the interpreter and press Return:
text
"Data Carpentry"
Everything in Python has a type. To get the type of something, we can pass it
to the built-in function type
:
type(text)
<class 'str'>
type(number)
<class 'int'>
type(pi_value)
<class 'float'>
The variable text
is of type str
, short for “string”. Strings hold
sequences of characters, which can be letters, numbers, punctuation
or more exotic forms of text (even emoji!).
We can also see the value of something using another built-in function, print
:
print(text)
Data Carpentry
print(number)
42
This may seem redundant, but in fact it’s the only way to display output in a script:
example.py
# A Python script file
# Comments in Python start with #
# The next line assigns the string "Data Carpentry" to the variable "text".
text = "Data Carpentry"
# The next line does nothing!
text
# The next line uses the print function to print out the value we assigned to "text"
print(text)
Running the script
$ python example.py
Data Carpentry
Notice that “Data Carpentry” is printed only once.
Tip: print
and type
are built-in functions in Python. Later in this
lesson, we will introduce methods and user-defined functions. The Python
documentation is excellent for reference on the differences between them.
Operators
We can perform mathematical calculations in Python using the basic operators
+, -, /, *, %
:
2 + 2 # Addition
4
6 * 7 # Multiplication
42
2 ** 16 # Power
65536
13 % 5 # Modulo
3
We can also use comparison and logic operators:
<, >, ==, !=, <=, >=
and statements of identity such as
and, or, not
. The data type returned by this is
called a boolean.
3 > 4
False
True and True
True
True or False
True
True and False
False
Sequences: Lists and Tuples
Lists
Lists are a common data structure to hold an ordered sequence of elements. Each element can be accessed by an index. Note that Python indexes start with 0 instead of 1:
numbers = [1, 2, 3]
numbers[0]
1
A for
loop can be used to access the elements in a list or other Python data
structure one at a time:
for num in numbers:
print(num)
1
2
3
Indentation is very important in Python. Note that the second line in the
example above is indented. Just like three chevrons >>>
indicate an
interactive prompt in Python, the three dots ...
are Python’s prompt for
multiple lines. This is Python’s way of marking a block of code. [Note: you
do not type >>>
or ...
.]
To add elements to the end of a list, we can use the append
method. Methods
are a way to interact with an object (a list, for example). We can invoke a
method using the dot .
followed by the method name and a list of arguments
in parentheses. Let’s look at an example using append
:
numbers.append(4)
print(numbers)
[1, 2, 3, 4]
To find out what methods are available for an
object, we can use the built-in help
command:
help(numbers)
Help on list object:
class list(object)
| list() -> new empty list
| list(iterable) -> new list initialized from iterable's items
...
Tuples
A tuple is similar to a list in that it’s an ordered sequence of elements.
However, tuples can not be changed once created (they are “immutable”). Tuples
are created by placing comma-separated values inside parentheses ()
.
# Tuples use parentheses
a_tuple = (1, 2, 3)
another_tuple = ('blue', 'green', 'red')
# Note: lists use square brackets
a_list = [1, 2, 3]
Tuples vs. Lists
- What happens when you execute
a_list[1] = 5
?- What happens when you execute
a_tuple[2] = 5
?- What does
type(a_tuple)
tell you abouta_tuple
?- What information does the built-in function
len()
provide? Does it provide the same information on both tuples and lists? Does thehelp()
function confirm this?Solution
1. The second value in a_list is replaced with 5.
2. There is an error:
TypeError: 'tuple' object does not support item assignment
As a tuple is immutable, it does not support item assignment. Elements in a list can be altered individually.
3.
<class 'tuple'>
; The function tells you that the variablea_tuple
is an object of the class tuple.4.
len()
tells us the length of an object. It works the same for both lists and tuples, providing us with the number of entries in each case.
Dictionaries
A dictionary is a container that holds pairs of objects - keys and values.
translation = {'one': 'first', 'two': 'second'}
translation['one']
'first'
Dictionaries work a lot like lists - except that you index them with keys. You can think about a key as a name or unique identifier for the value it corresponds to.
rev = {'first': 'one', 'second': 'two'}
rev['first']
'one'
To add an item to the dictionary we assign a value to a new key:
rev['third'] = 'three'
rev
{'first': 'one', 'second': 'two', 'third': 'three'}
Using for
loops with dictionaries is a little more complicated. We can do
this in two ways:
for key, value in rev.items():
print(key, '->', value)
'first' -> one
'second' -> two
'third' -> three
or
for key in rev.keys():
print(key, '->', rev[key])
'first' -> one
'second' -> two
'third' -> three
Changing dictionaries
- First, print the value of the
rev
dictionary to the screen.- Reassign the value that corresponds to the key
second
so that it no longer reads “two” but instead2
.- Print the value of
rev
to the screen again to see if the value has changed.Solution
1.
print(rev)
{'first': 'one', 'second': 'two', 'third': 'three'}
2 & 3:
rev['second'] = 2 print(rev)
{'first': 'one', 'second': 2, 'third': 'three'}
Functions
Defining a section of code as a function in Python is done using the def
keyword. For example a function that takes two arguments and returns their sum
can be defined as:
def add_function(a, b):
result = a + b
return result
z = add_function(20, 22)
print(z)
42
Key Points
Python is an interpreted language which can be used interactively (executing one command at a time) or in scripting mode (executing a series of commands saved in file).
One can assign a value to a variable in Python. Those variables can be of several types, such as string, integer, floating point and complex numbers.
Lists and tuples are similar in that they are ordered lists of elements; they differ in that a tuple is immutable (cannot be changed).
Dictionaries are data structures that provide mappings between keys and values.