Lab Exercise 2: Python, functions, and parameters
We'll spend some more time this week learning Python syntax and creating functions, which are collections of code that we may want to execute more than once. An important aspect of functions are parameters, which are a way of making a function do more than one thing.
In addition, we'll focus on overall code organization. How you write and organize your code makes a big difference in how easy it is to write, modify, debug, and re-use. Good code organization saves you time and effort.
- On the Desktop (or on your personal volume), make a folder called project2.
- Open a text editor (e.g TextWrangler). Create a new file called lab2.py and save it in the project2 folder. As you did in the project last week, we're going to put a series of python commands into the file and then tell python to execute those commands.
Put a comment at the top of the file with your name and the date. In
python, you make a comment by using a #. Anything on the same line
after the # is not read by the interpreter.
Comments are important in code. They have three important functions.
- If you write out your algorithm as comments before writing the actual code, it helps you design your algorithms efficiently, reason about what code structures you need, and it makes code writing go much faster.
- Comments helps you to re-use and modify code by reminding you of what the code does and why you wrote it the way you did.
- Comments help other people to analyze and use your code by making it easier for them to understand the algorithm.
From now on we'll be grading your code not only on its functionality, but also on whether it is well-commented and easy to read. Well-commented code has a comment (1 sentence) before each function describing what it does and the meaning of its parameters. It will also generally have a comment before each major section of the function.
After the comment line, write the command to tell python to import the
From now on, we'll be importing packages using the above syntax. It requires you to access the turtle functions slightly differently, but it enforces better code organization and style, in addition to reducing unintended errors.
To test that everything is working, put the following commands in the
file and then run it on the command line.
turtle.reset() turtle.forward( 100 ) raw_input('Hit enter to continue')
The above code is pretty much identical to how we started last week, but since we included the turtle package using the import turtle syntax, we have to use the prefix turtle. prior to any function from the turtle package.
Recall that to execute the file in a terminal you need to go to the directory with your file and then type:
cd Desktop/project2 python lab2.py
If you are working in your personal directory, your working directory will be different. You can use the Finder to drag and drop your working folder into the terminal.
Once your file works, go back and delete the reset and forward
commands. Before the raw_input line, make a function that sends the
turtle to a particular location without drawing anything. Call the
function goto and give it two parameters to hold the new x
location and y location.
Function syntax reminders:
- The function definition begins with the keyword def
- The function parameters are a set of symbols (names or strings) inside parentheses.
- The function definition line must end with a colon.
- The commands inside a function must be tabbed or spaced relative to the def statement.
The goto function should raise the pen using the turtle.up() function, use the turtle.goto function to jump to the location specified by the parameters, and then put down the pen using turtle.down().
While you are still learning to interpret code, it may also be useful to have print statements in your functions that indicate what is happening. Print statements are probably your most important debugging tool, because you can use them to find out information about both the order of operations and the value of variables at different times during the process. At the beginning of your goto function, put the following print statement.
print 'goto(): going to', x, y
Once you have written the function, test it by using the goto function and drawing some lines. For example, after the function definition, but before the raw_input() call, you could do the following.
print 'running main code' goto( 100, 100 ) turtle.forward( 50 ) goto( -100, 50 ) turtle.forward( 50 )
Note the difference between the function goto() and turtle.goto(). Without the turtle prefix, python will call the function you defined. With the turtle prefix, python will call the goto function in the turtle package.
It's also important to start thinking about where functions and top-level code are placed relative to each other in your file. Top-level code should always come after all function definitions. If you intersperse code and functions, it will lead to confusion and be difficult to debug or modify.
Execute your code and make sure your goto function works properly. Note what it prints out and make sure you understand the order of operation.
Now we want to make a block function that draws a rectangular shape of
a given size in a given location. This function will need four
parameters: x location, y location, width, and height. Call the
function block, and define it after your goto
function. The function should jump to the given location and draw the
rectangle with the given width and height. You can call functions from
other functions, so your block function will probably start
with the following. Keep including print statements so you can follow
the order in which the computer executes the code.
Copy and paste the following into your file. Then select all of the text in your file (cmd-a) and select the Entab option under the Text menu. This makes sure all of your white space is properly formatted.
def block( x, y, width, height ): goto( x, y ) print 'block(): drawing block of size', width, height # tell the turtle to go foward by width # tell the turtle to turn left by 90 degrees # tell the turtle to go forward by height # tell the turtle to turn left by 90 degrees # repeat the above 4 commands
Remove your old main code (the goto and turtle.forward commands) and replace them with a couple of calls to the block function.
Now we want to make a function that draws a bunch of blocks relative
to a central location. Call the function bunchOfBlocks. It
should take three parameters: x location, y location, and a scale
factor. A scale factor of 1.0 should draw the shape in its natural
The first command in the function should be a print statement. The remainder of the function should call the block function 2-4 times with blocks in different locations relative to the given (x, y) location. The example below shows the function definition, the print statement, and three calls to the block function. Note the use of the scale factor in both the location offsets and the size of the block.
def bunchOfBlocks( x, y, scale ): print 'bunchOfBlocks(): drawing blocks at location', x, y # put several calls to the block function here block( x, y, 45*scale, 90*scale ) block( x+15*scale, y+90*scale, 15*scale, 30*scale ) block( x+20*scale, y+120*scale, 5*scale, 15*scale )
The picture below is result of three calls to the bunchOfBlocks function. Note that the relative sizes and locations of the blocks are all identical, despite different scale factors.
Make your own bunchOfBlocks function. If you want, just make some changes to the code above and see what happens. Then change the main code in your file to call the bunchOfBlocks function several times with different x, y, and scale parameters. Then run your file.
Now we can have some fun with our bunchOfBlocks function. At the top
of your file, put the following statement.
Replace the main block of code with the following. Note the use of the function random.random() in both the x, y location and scale factor. The function returns a random number between 0 and 1.0. The for expression executes the code inside the block the number of times specified in the argument to the range function.
for i in range(10): bunchOfBlocks( random.random()*600 - 300, random.random()*600 - 300, random.random()*2 + 0.5 )
When you are done with the lab exercises, go ahead and get started on the second assignment.