Guido van Robot is a robot who can do a lot of things, but only if you program him. We're gonna gradually show how it's possible to teach Guido to navigate his world.
Without our help, Guido already understands five primitive instructions:
The primitive instructions are called "builtin" instructions, because he already knows them before we ever give him a program to run. Guido also understands the special words "define," "do," "if," and "while," but let's start out simple.
You can write simple programs by combining the five builtin instructions turnleft, move, putbeeper, pickbeeper, and turnoff.
For example, let's have guido move a square (move), turn left (turnleft), move another square (move), put a beeper down (putbeeper), then turn off (turnoff).
move turnleft move putbeeper turnoff
That's a pretty simple program, but we have to format if very carefully for Guido. Notice how every instruction is on its own line.
Let's modify the program so that instead of turning left, Guido turns right. The problem is, Guido does not know how to turn right, so we teach him. Look at the program below, and see how we teach Guido:
define turnright:
turnleft
turnleft
turnleft
move
turnright
move
putbeeper
turnoff
We take the first four lines of the program to define to Guido what it means to "turnright." Turning right is 3 left turns. Try acting this yourself to see how it works. Again, Guido is very particular about how you format your program. Let's write a program with two definitions now:
define turnright:
turnleft
turnleft
turnleft
define move_ten_squares:
move
move
move
move
move
move
move
move
move
move
move_ten_squares
turnright
move_ten_squares
putbeeper
turnoff
Notice how all the instructions in each definition get indented at the same level. Guido needs you to format the instructions like that for him, or else he will get confused. Remember, his brain is made out of sand, and he does not possess human intelligence. On the other hand, he is very loyal when you give him the right format. So please bear with him.
Since Guido has a computer brain, there is one thing he's very good at--counting. If you want to tell him to do something ten times, just tell him to do it 10 times. If you want to tell him to do something three times, again, just tell him:
define turnright:
do 3:
turnleft
define move_ten_squares:
do 10:
move
move_ten_squares
turnright
move_ten_squares
putbeeper
turnoff
The above program does exactly what the one before it did, but we didn't have to type as much. Also, Guido can repeat more than one instruction:
do 5:
move
pickbeeper
turnoff
The following program does the same thing:
move pickbeeper move pickbeeper move pickbeeper move pickbeeper move pickbeeper turnoff
But really, who wants to type all that? It's better to use the "do" command.
So far Guido does exactly what we tell him, like a good loyal robot, but every now and then, we'd like for him to make decisions on his own. Let's write a really small program for Guido to show his decisionmaking ability. We want him to move one square, unless there's a wall in front of him. If there's a wall in front of him, we'd prefer for him not to run in the wall, so he can just turn off.
if front_is_clear:
move
turnoff
Guido understand what "if" means. He also knows what "front_is_clear" means. He has already been wired to know those words. Still, it's up to you tell him what to do "if" his "front_is_clear." We are saying "if" his "front_is_clear," he can "move." Then, regardless of the situation, the next command is to "turnoff."
Let's give him a more complex instruction:if front_is_clear: move pickbeeper pickbeeper pickbeeper else: turnleft turnleft turnoffHere we are telling him that if his front is clear, it's okay for him to move and then pick up three beepers. Or "else," if his front is not clear, then we want him to turnleft twice. Then, regardless, he has to turnoff.
We said earlier that Guido understand five commands without us having to teach him anything--move, turnleft, putbeeper, pickbeeper, and turnoff. Those were called "builtin" commands.
We also introduced the idea that Guido can check for a condition-- for example "front_is_clear." The word "front_is_clear" is an example of a builtin conditional. It turns out there are eighteen builtin conditionals:
All the conditionals can be used with the "if" keyword. Here is an example program:
define pick_up_beeper_only_if_its_there:
if next_to_a_beeper:
pickbeeper
define move_only_if_you_can:
if front_is_clear:
move
pick_up_beeper_only_if_its_there
move_only_if_you_can
pick_up_beeper_only_if_its_there
turnoff
One common task for Guido is that he wants to approach a wall, but of course he does not want to slam into it.
Here is a program that does this:
while front_is_clear:
move
The "while" command is like the "if" and "do" commands; it works with a block of commands. Like the "if" command, the "while" command only does its block if the condition is true.
In our example, the "while" command only does the "move" if "front_is_clear."
But the powerful thing about the "while" command is that it keeps doing the "move" as long as "front_is_clear." It repeats the command. This is called "looping." Guido keeps looping through the "while" statement and executing "move" as long as his front is clear.