By now, you will have encountered various bugs when programming for this class. Most often, you will try to run your code and see something like this:
Traceback (most recent call last): File "<pyshell#29>", line 3 in <module> result = buggy(5) File <pyshell#29>", line 5 in buggy return f + x TypeError: unsupported operand type(s) for +: 'function' and 'int'
This is called a traceback message. It prints out the chain of function calls that led up to the error, with the most recent function call at the bottom. You can follow this chain to figure out which function(s) caused the problem.
Notice that the lines in the traceback appear to be paired together. The first line in such a pair has the following format:
File "<file name>", line <number>, in <function>
That line provides you with the following information:
The second line in the pair (it's indented farther in than the first) displays the actual line of code that makes the next function call. This gives you a quick look at what arguments were passed into the function, in what context the function was being used, etc.
Finally, remember that the traceback is organized with the "most recent call last."
The very last line in the traceback message is the error statement. An error statement has the following format:
<error type>: <error message>
This line provides you with two pieces of information:
TypeError). These are usually descriptive enough to help you narrow down your search for the cause of error.
Python has a great way to quickly write tests for your code. These are called doctests, and look like this:
def foo(x): """A random function. >>> foo(4) 4 >>> foo(5) 5 """
The lines in the docstring that look like interpreter outputs are the doctests. To run them, go to your terminal and type:
python3 -m doctest file.py
This effectively loads your file into the Python interpreter, and
checks to see if each doctest input (e.g.
foo(4)) is the same as the
specified output (e.g.
4). If it isn't, a message will tell you
which doctests you failed.
The command line tool has a
-v option that stands for "verbose."
python3 -m doctest file.py -v
In addition to telling you which doctests you failed, it will also
tell you which doctests passed. I personally find that information
unnecessary, so I usually leave
Usually, we will provide doctests for you in the starter files. Always run these doctests. Submitting an assignment without running doctests even once is practically throwing points away.
Also, do not manually type in doctests into the interpreter. The whole point of writing doctests is so you don't have to do that. Manually typing in doctests requires you to (1) open up a Python shell, (2) type in every doctest, (3) manually check if the output matches the doctest, (4) repeat. Running doctests from the command line requires you to (1) type in a single line, and (2) that's it!
In addition to doctests, you can write your own tests. There are two ways to do this: (1) write additional doctests, or (2) write testing functions.
Writing your own tests is good practice for the future. Remember, before the project deadlines, our autograder only runs sanity tests -- a subset of all the tests we will eventually run. In other words, passing the autograder does not mean you get full credit. As such, it is a very good idea to write your own test cases.
To write more doctests, simply follow the style of existing doctests.
You can also write your own functions (much like the
function from Project 1).
Some advice in writing tests:
Once the doctests tell you where the error is, you have to figure what went wrong. If the doctest gave you a traceback message, look at what type of error it is to help narrow your search. Also check that you aren't making any common mistakes.
When you first learn how to program, it can be hard to spot bugs in
your code. One common practice is to add
foo keeps returning the
def foo(x): result = some_function(x) return result // 5
We can add a print statement before the return to check what
some_function is returning:
def foo(x): result = some_function(x) print('result is', result) return other_function(result)
If it turns out
result is not what we expect it to be, we would go
some_function to see if it works properly. Otherwise, we
might have to add a print statement before the return to check
def foo(x): result = some_function(x) print('result is', result) tmp = other_function(result) print('other_function returns', tmp) return tmp
print(tmp) # harder to keep track print('tmp was this:', tmp) # easier
whileloop to view the state of the counter variables after each iteration:
i = 0 while i < n: i += func(i) print('i is', i)
However, sometimes we would like to leave the debugging code if we
need to periodically test our file. It can get kind of annoying if
every time we run our file, debugging messages pop up. One way to
avoid this is to use a global
debug = True def foo(n): i = 0 while i < n: i += func(i) if debug: print('i is', i)
Now, whenever we want to do some debugging, we can set the global
debug variable to
True, and when we don't want to see any
debugging input, we can turn it to
False (such a variable is called
The following are common error types that Python programmers run into.
File "file name", line number def incorrect(f) ^ SyntaxError: invalid syntax
^symbol points to the code that contains invalid syntax. The error message doesn't tell you what is wrong, but it does tell you where.
SyntaxErrorsbefore executing any code. This is different from other errors, which are only raiased during runtime.
File "file name", line number print('improper indentation') IndentationError: unindent does not match any outer indentation level
TypeError: unsupported operand type(s) for +: 'function' and 'int'
>>> square = 3 >>> square(3) Traceback (most recent call last): ... TypeError: 'int' object is not callable
>>> add(3) Traceback (most recent call last): ... TypeError: add expected 2 arguments, got 1
File "file name", line number y = x + 3 NameError: global name 'x' is not defined
File "file name", line number x IndexError: tuple index out of range
seq[x], make sure the variable is assigned to a proper index.
hellois not the same as
helo. This will usually show up as a
NameError, but sometimes misspelled variables will actually have been defined. In that case, it can be difficult to find errors, and it is never gratifying to discover it's just a spelling mistake.
SyntaxError. Consider the following code:
def fun(): return foo(bar() # missing a parenthesis here fun()
Python will raise a
SyntaxError, but will point to the line
after the missing parenthesis:
File "file name", line "number" fun() ^ SyntaxError: invalid syntax
In general, if Python points a
SyntaxError to a seemingly correct
line, you are probably forgetting a parenthesis somewhere.
File "file name", line "number" return 'hi ^ SyntaxError: EOL while scanning string literal
EOL stands for "End of Line."
==: the single equal sign
=is used for assignment; the double equal sign
==is used for testing equivalence. The most common error of this form is something like:
if x = 3:
whileloops whose conditions never change. For example:
i = 0 while i < 10: print(i)
Sometimes you might have incremented the wrong counter:
i, n = 0, 0 while i < 10: print(i) n += 1
whileloop or recursive function might stop one iteration too short. Here, it's best to walk through the iteration/recursion to see what number the loop stops at.