Writing programs (or programming) is a very creative and rewarding activity. You can write programs for many reasons ranging from making your living to solving a difficult data analysis problem to having fun to helping someone else solve a problem. This book assumes that everyone needs to know how to program and that once you know how to program, you will figure out what you want to do with your newfound skills.
We are surrounded in our daily lives with computers ranging from laptops to cell phones. We can think of these computers as our “personal assistants” who can take care of many things on our behalf. The hardware in our current-day computers is essentially built to continuously ask us the question, “What would you like me to do next?”.
Programmers add an operating system and a set of applications to the hardware and we end up with a Personal Digital Assistant that is quite helpful and capable of helping many different things.
Our computers are fast and have vast amounts of memory and could be very helpful to us if we only knew the language to speak to explain to the computer what we would like it to “do next”. If we knew this language we could tell the computer to do tasks on our behalf that were repetitive. Interestingly, the kinds of things computers can do best are often the kinds of things that we humans find boring and mind-numbing.
For example, look at the first three paragraphs of this chapter and tell me the most commonly used word and how many times the word is used. While you were able to read and understand the words in a few seconds, counting them is almost painful because it is not the kind of problem that human minds are designed to solve. For a computer the opposite is true, reading and understanding text from a piece of paper is hard for a computer to do but counting the words and telling you how many times the most used word was used is very easy for the computer:
python words.py Enter file:words.txt to 16
Our “personal information analysis assistant” quickly told us that the word “to” was used sixteen times in the first three paragraphs of this chapter.
This very fact that computers are good at things that humans are not is why you need to become skilled at talking “computer language”. Once you learn this new language, you can delegate mundane tasks to your partner (the computer), leaving more time for you to do the things that you are uniquely suited for. You bring creativity, intuition, and inventiveness to this partnership.
While this book is not intended for professional programmers, professional programming can be a very rewarding job both financially and personally. Building useful, elegant, and clever programs for others to use is a very creative activity. Your computer or Personal Digital Assistant (PDA) usually contains many different programs from many different groups of programmers, each competing for your attention and interest. They try their best to meet your needs and give you a great user experience in the process. In some situations, when you choose a piece of software, the programmers are directly compensated because of your choice.
If we think of programs as the creative output of groups of programmers, perhaps the following figure is a more sensible version of our PDA:
For now, our primary motivation is not to make money or please end-users, but instead for us to be more productive in handling the data and information that we will encounter in our lives. When you first start, you will be both the programmer and end-user of your programs. As you gain skill as a programmer and programming feels more creative to you, your thoughts may turn toward developing programs for others.
Before we start learning the language we speak to give instructions to computers to develop software, we need to learn a small amount about how computers are built. If you were to take apart your computer or cell phone and look deep inside, you would find the following parts:
The high-level definitions of these parts are as follows:
While most of the detail of how these components work is best left to computer builders, it helps to have some terminology so we can talk about these different parts as we write our programs.
As a programmer, your job is to use and orchestrate each of these resources to solve the problem that you need solving and analyze the data you need. As a programmer you will mostly be “talking” to the CPU and telling it what to do next. Sometimes you will tell the CPU to use the main memory, secondary memory, network, or the input/output devices.
You need to be the person who answers the CPU’s “What next?” question. But it would be very uncomfortable to shrink you down to 5mm tall and insert you into the computer just so you could issue a command three billion times per second. So instead, you must write down your instructions in advance. We call these stored instructions a program and the act of writing these instructions down and getting the instructions to be correct programming.
In the rest of this book, we will try to turn you into a person who is skilled in the art of programming. In the end you will be a programmer — perhaps not a professional programmer but at least you will have the skills to look at a data/information analysis problem and develop a program to solve the problem.
In a sense, you need two skills to be a programmer:
You will learn the “vocabulary” and “sentences” of Python pretty quickly. It will take longer for you to be able to write a coherent program to solve a brand new problem. We teach programming much like we teach writing. We start reading and explaining programs and then we write simple programs and then write increasingly complex programs over time. At some point you “get your muse” and see the patterns on your own and can see more naturally how to take a problem and write a program that solves that problem. And once you get to that point, programming becomes a very pleasant and creative process.
We start with the vocabulary and structure of Python programs. Be patient as the simple examples remind you of when you started reading for the first time.
Unlike human languages, the Python vocabulary is actually pretty small. We call this “vocabulary” the “reserved words”. These are words that have very special meaning to Python. When Python sees these words in a Python program, they have one and only one meaning to Python. Later as you write programs you will make your own words that have meaning to you called variables. You will have great latitude in choosing your names for your variables, but you cannot use any of Python’s reserved words as a name for a variable.
In a sense, when we train a dog, we would use special words like, “sit”, “stay”, and “fetch”. Also when you talk to a dog and don’t use any of the reserved words, they just look at you with a quizzical look on their faces until you say a reserved word. For example, if you say, “I wish more people would walk to improve their overall health.”, what most dogs likely hear is, “blah blah blah walk blah blah blah blah.” That is because “walk” is a reserved word in dog language. Many might suggest that the language between humans and cats has no reserved words1.
The reserved words in the language where humans talk to Python incudes the following:
and del from not while as elif global or with assert else if pass yield break except import print class exec in raise continue finally is return def for lambda try
That is it, and unlike a dog, Python is already completely trained. When you say “try”, Python will try every time you say it without fail.
We will learn these reserved words and how they are used in good time, but for now we will focus on the Python equivalent of “speak” (in human to dog language). The nice thing about telling Python to speak is that we can even tell it what to say by giving it a message in quotes:
print 'Hello world!'
And we have even written our first syntactically correct Python sentence. Our sentence starts with the reserved word print followed by a string of text of our choosing enclosed in single quotes.
Now that we have a word and a simple sentence that we know in Python, we need to know how to start a conversation with Python to test our new language skills.
Before you can converse with Python, you must first install the Python software on your computer and learn how to start Python on your computer. That is too much detail for this chapter so I suggest that you consult www.pythonlearn.com where I have detailed instructions and screencasts of setting up and starting Python on Macintosh and Windows systems. At some point, you will be in a terminal or command window and you will type python and the Python interpreter will start executing in interactive mode and appear somewhat as follows:
Python 2.6.1 (r261:67515, Jun 24 2010, 21:47:49) [GCC 4.2.1 (Apple Inc. build 5646)] on darwin Type "help", "copyright", "credits" or "license" for more information. >>>
The >>> prompt is the Python interpreter’s way of asking you, “What do you want me to do next?”. Python is ready to have a conversation with you. All you have to know is how to speak the Python language and you can have a conversation.
Lets say for example that you did not know even the simplest Python language words or sentences. You might want to use the standard line that astronauts use when they land on a far away planet and try to speak with the inhabitants of the planet:
>>> I come in peace, please take me to your leader File "<stdin>", line 1 I come in peace, please take me to your leader ^ SyntaxError: invalid syntax >>>
This is not going so well. Unless you think of something quickly, the inhabitants of the planet are likely to stab you with their spears, put you on a spit, roast you over a fire, and eat you for dinner.
Luckily you brought a copy of this book on your travels and you thumb to this very page and try again:
>>> print 'Hello world!' Hello world!
This is looking much better so you try to communicate some more:
>>> print 'You must be the legendary god that comes from the sky' You must be the legendary god that comes from the sky >>> print 'We have been waiting for you for a long time' We have been waiting for you for a long time >>> print 'Our legend says you will be very tasty with mustard' Our legend says you will be very tasty with mustard >>> print 'We will have a feast tonight unless you say File "<stdin>", line 1 print 'We will have a feast tonight unless you say ^ SyntaxError: EOL while scanning string literal >>>
The conversation was going so well for a while and then you made the tiniest mistake using the Python language and Python brought the spears back out.
At this point, you should also realize that while Python is amazingly complex and powerful and very picky about the syntax you use to communicate with it, Python is not intelligent. You are having a conversation with yourself but using proper syntax.
In a sense when you use a program written by someone else the conversation is between you and those other programmers with Python acting as an intermediary. Python is a way for the creators of programs to express how the conversation is supposed to proceed. And in just a few more chapters, you will be one of those programmers using Python to talk to the users of your program.
Before we leave our first conversation with the Python interpreter, you should probably know the proper way to say “good-bye” when interacting with the inhabitants of Planet Python:
>>> good-bye Traceback (most recent call last): File "<stdin>", line 1, in <module> NameError: name 'good' is not defined >>> if you don't mind, I need to leave File "<stdin>", line 1 if you don't mind, I need to leave ^ SyntaxError: invalid syntax >>> quit()
You will notice that the error is different for the first two incorrect attempts. The second error is different because if is a reserved word and Python saw the reserved word and thought we were trying to say something but got the syntax of the sentence wrong.
The proper way to say “good-bye” to Python is to enter quit() at the interactive chevron >>> prompt. It would have probably taken you quite a while to guess that one so having a book handy probably will turn out to be helpful.
The CPU understands a language we call machine-language. Machine language is very simple and frankly very tiresome to write because it is represented all in zeros and ones:
01010001110100100101010000001111 11100110000011101010010101101101 ...
Since machine language is tied to the computer hardware, machine language is not portable across different types of hardware. Programs written in high-level languages can be moved between different computers by using a different interpreter on the new machine or re-compiling the code to create a machine language version of the program for the new machine.
These programming language translators fall into two general categories: (1) interpreters and (2) compilers.
An interpreter reads the source code of the program as written by the programmer, parses the source code, and interprets the instructions on-the-fly. Python is an interpreter and when we are running Python interactively, we can type a line of Python (a sentence) and Python processes it immediately and is ready for us to type another line of Python.
Some of the lines of Python tell Python that you want it to remember some value for later. We need to pick a name for that value to be remembered and we can use that symbolic name to retrieve the value later. We use the term variable to refer to the labels we use to refer to this stored data.
>>> x = 6 >>> print x 6 >>> y = x * 7 >>> print y 42 >>>
In this example, we ask Python to remember the value six and use the label x so we can retrieve the value later. We verify that Python has actually remembered the value using print. Then we ask Python to retrieve x and multiply it by seven and put the newly-computed value in y. Then we ask Python to print out the value currently in y.
Even though we are typing these commands into Python one line at a time, Python is treating them as an ordered sequence of statements with later statements able to retrieve data created in earlier statements. We are writing our first simple paragraph with four sentences in a logical and meaningful order.
It is the nature of an interpreter to be able to have an interactive conversation as shown above. A compiler needs to be handed the entire program in a file, and then it runs a process to translate the high level source code into machine language and then the compiler puts the resulting machine language into a file for later execution.
If you have a Windows system, often these executable machine language programs have a suffix of “.exe” or “.dll” which stand for “executable” and “dynamically loadable library” respectively. In Linux and Macintosh there is no suffix that uniquely marks a file as executable.
If you were to open an executable file in a text editor, it would look completely crazy and be unreadable:
^?ELF^A^A^A^@^@^@^@^@^@^@^@^@^B^@^C^@^A^@^@^@\xa0\x82 ^D^H4^@^@^@\x90^]^@^@^@^@^@^@4^@ ^@^G^@(^@$^@!^@^F^@ ^@^@4^@^@^@4\x80^D^H4\x80^D^H\xe0^@^@^@\xe0^@^@^@^E ^@^@^@^D^@^@^@^C^@^@^@^T^A^@^@^T\x81^D^H^T\x81^D^H^S ^@^@^@^S^@^@^@^D^@^@^@^A^@^@^@^A\^D^HQVhT\x83^D^H\xe8 ....
It is not easy to read or write machine language so it is nice that we have interpreters and compilers that allow us to write in a high-level language like Python or C.
Now at this point in our discussion of compilers and interpreters, you should be wondering a bit about the Python interpreter itself. What language is it written in? Is it written in a compiled language? When we type “python”, what exactly is happening?
The Python interpreter is written in a high level language called “C”. You can look at the actual source code for the Python interpreter by going to www.python.org and working your way to their source code. So Python is a program itself and it is compiled into machine code and when you installed Python on your computer (or the vendor installed it), you copied a machine-code copy of the translated Python program onto your system. In Windows the executable machine code for Python itself is likely in a file with a name like:
That is more than you really need to know to be a Python programmer, but sometimes it pays to answer those little nagging questions right at the beginning.
Typing commands into the Python interpreter is a great way to experiment with Python’s features, but it is not recommended for solving more complex problems.
When we want to write a program, we use a text editor to write the Python instructions into a file, which is called a script. By convention, Python scripts have names that end with .py.
To execute the script, you have to tell the Python interpreter the name of the file. In a Unix or Windows command window, you would type python hello.py as follows:
csev$ cat hello.py print 'Hello world!' csev$ python hello.py Hello world! csev$
The “csev$” is the operating system prompt, and the “cat hello.py” is showing us that the file “hello.py” has a one line Python program to print a string.
We call the Python interpreter and tell it to read its source code from the file “hello.py” instead of prompting us for lines of Python code interactively.
You will notice that there was no need to have quit() at the end of the Python program in the file. When Python is reading your source code from a file, it knows to stop when it reaches the end of the file.
The definition of a program at its most basic is a sequence of Python statements that have been crafted to do something. Even our simple hello.py script is a program. It is a one-line program and is not particularly useful, but in the strictest definition, it is a Python program.
It might be easiest to understand what a program is by thinking about a problem that a program might be built to solve, and then looking at a program that would solve that problem.
Lets say you are doing Social Computing research on Facebook posts and you are interested in the most frequently used word in a series of posts. You could print out the stream of facebook posts and pore over the text looking for the most common word, but that would take a long time and be very mistake prone. You would be smart to write a Python program to handle the task quickly and accurately so you can spend the weekend doing something fun.
For example look at the following text about a clown and a car. Look at the text and figure out the most common word and how many times it occurs.
the clown ran after the car and the car ran into the tent and the tent fell down on the clown and the car
Then imagine that you are doing this task looking at millions of lines of text. Frankly it would be quicker for you to learn Python and write a Python program to count the words than it would be to manually scan the words.
The even better news is that I already came up with a simple program to find the most common word in a text file. I wrote it, tested it, and now I am giving it to you to use so you can save some time.
name = raw_input('Enter file:') handle = open(name, 'r') text = handle.read() words = text.split() counts = dict() for word in words: counts[word] = counts.get(word,0) + 1 bigcount = None bigword = None for word,count in counts.items(): if bigcount is None or count > bigcount: bigword = word bigcount = count print bigword, bigcount
You don’t even need to know Python to use this program. You will need to get through Chapter 10 of this book to fully understand the awesome Python techniques that were used to make the program. You are the end user, you simply use the program and marvel at its cleverness and how it saved you so much manual effort. You simply type the code into a file called words.py and run it or you download the source code from http://www.pythonlearn.com/code/ and run it.
This is a good example of how Python and the Python language are acting as an intermediary between you (the end-user) and me (the programmer). Python is a way for us to exchange useful instruction sequences (i.e. programs) in a common language that can be used by anyone who installs Python on their computer. So neither of us are talking to Python, instead we are communicating with each other through Python.
In the next few chapters, we will learn more about the vocabulary, sentence structure, paragraph structure, and story structure of Python. We will learn about the powerful capabilities of Python and how to compose those capabilities together to create useful programs.
There are some low-level conceptual patterns that we use to construct programs. These constructs are not just for Python programs, they are part of every programming language from machine language up to the high-level languages.
It sounds almost too simple to be true and of course it is never so simple. It is like saying that walking is simply “putting one foot in front of the other”. The “art” of writing a program is composing and weaving these basic elements together many times over to produce something that is useful to its users.
The word counting program above directly uses all of these patterns except for one.
As we saw in our earliest conversations with Python, we must communicate very precisely when we write Python code. The smallest deviation or mistake will cause Python to give up looking at your program.
Beginning programmers often take the fact that Python leaves no room for errors as evidence that Python is mean, hateful and cruel. While Python seems to like everyone else, Python knows them personally and holds a grudge against them. Because of this grudge, Python takes our perfectly written programs and rejects them as “unfit” just to torment us.
>>> primt 'Hello world!' File "<stdin>", line 1 primt 'Hello world!' ^ SyntaxError: invalid syntax >>> primt 'Hello world' File "<stdin>", line 1 primt 'Hello world' ^ SyntaxError: invalid syntax >>> I hate you Python! File "<stdin>", line 1 I hate you Python! ^ SyntaxError: invalid syntax >>> if you come out of there, I would teach you a lesson File "<stdin>", line 1 if you come out of there, I would teach you a lesson ^ SyntaxError: invalid syntax >>>
There is little to be gained by arguing with Python. It is a tool, it has no emotion and it is happy and ready to serve you whenever you need it. Its error messages sound harsh, but they are just Python’s call for help. It has looked at what you typed, and it simply cannot understand what you have entered.
Python is much more like a dog, loving you unconditionally, having a few key words that it understands, looking you with a sweet look on its face (>>>) and waiting for you to say something it understands. When Python says “SyntaxError: invalid syntax”, it is simply wagging its tail and saying, “You seemed to say something but I just don’t understand what you meant, but please keep talking to me (>>>).”
As your programs become increasingly sophisticated, you will encounter three general types of errors:
Again in all three types of errors, Python is merely trying its hardest to do exactly what you have asked.
As you progress through the rest of the book, don’t be afraid if the concepts don’t seem to fit together well the first time. When you were learning to speak, it was not a problem for your first few years that you just made cute gurgling noises. And it was OK if it took six months for you to move from simple vocabulary to simple sentences and took 5-6 more years to move from sentences to paragraphs, and a few more years to be able to write an interesting complete short story on your own.
We want you to learn Python much more rapidly, so we teach it all at the same time over the next few chapters. But it is like learning a new language that takes time to absorb and understand before it feels natural. That leads to some confusion as we visit and revisit topics to try to get you to see the big picture while we are defining the tiny fragments that make up the big picture. While the book is written linearly and if you are taking a course, it will progress in a linear fashion, don’t hesitate to be very non-linear in how you approach the material. Look forwards and backwards and read with a light touch. By skimming more advanced material without fully understanding the details, you can get a better understanding of the “why?” of programming. By reviewing previous material and even re-doing earlier exercises, you will realize that you actually learned a lot of material even if the material you are currently staring at seems a bit impenetrable.
Usually when you are learning your first programming language, there are a few wonderful “Ah-Hah!” moments where you can look up from pounding away at some rock with a hammer and chisel and step away and see that you are indeed building a beautiful sculpture.
If something seems particularly hard, there is usually no value in staying up all night and staring at it. Take a break, take a nap, have a snack, explain what you are having a problem with to someone (or perhaps your dog), and then come back to it with fresh eyes. I assure you that once you learn the programming concepts in the book you will look back and see that it was all really easy and elegant and it simply took you a bit of time to absorb it.
a) Execute all of the computation and logic of the program
b) Retrieve web pages over the Internet
c) Store information for the long term - even beyond a power cycle
d) Take input from the user
a) The Python interpreter
b) The keyboard
c) Python source file
d) A word processing document
>>> primt 'Hello world!' File "<stdin>", line 1 primt 'Hello world!' ^ SyntaxError: invalid syntax >>>
x = 123
a) Central processing unit
b) Main Memory
c) Secondary Memory
d) Input Devices
e) Output Devices
x = 43 x = x + 1 print x
c) x + 1
d) Error because x = x + 1 is not possible mathematically