Pizza Anyone? |
You are responsible for ordering a large pizza for you and your friends. Each of them has told you what he wants on a pizza and what he does not; of course they all understand that since there is only going to be one pizza, no one is likely to have all their requirements satisfied. Can you order a pizza that will satisfy at least one request from all your friends?
The pizza parlor you are calling offers the following pizza toppings; you
can include or omit any of them in a pizza:
Input Code | Topping |
A | Anchovies |
B | Black Olives |
C | Canadian Bacon |
D | Diced Garlic |
E | Extra Cheese |
F | Fresh Broccoli |
G | Green Peppers |
H | Ham |
I | Italian Sausage |
J | Jalapeno Peppers |
K | Kielbasa |
L | Lean Ground Beef |
M | Mushrooms |
N | Nonfat Feta Cheese |
O | Onions |
P | Pepperoni |
Your friends provide you with a line of text that describes their pizza preferences. For example, the line
+O-H+P;
reveals that someone will accept a pizza with onion, or without ham, or with pepperoni, and the line
-E-I-D+A+J;
indicates that someone else will accept a pizza that omits extra cheese, or Italian sausage, or diced garlic, or that includes anchovies or jalapenos.
A pizza constraint is a list of 1 to 12 topping constraint lists each on a line by itself followed by a period on a line by itself.
A topping constraint list is a series of topping requests terminated by a single semicolon.
An topping request is a sign character (+/-) and then an uppercase letter from A to P.
Toppings: ACFO
If no combination toppings can be found which satisfies at least one request of every person, your program should print the string
No pizza can satisfy these requests.
on a line by itself starting in column 1.
+A+B+C+D-E-F-G-H; -A-B+C+D-E-F+G+H; -A+B-C+D-E+F-G+H; . +A+B+C+D; +E+F+F+H; +A+B-G; +O+J-F; +H+I+C; +P; +O+M+L; +M-L+P; . +A+B+C+D; +E+F+F+H; +A+B-G; +P-O; +O+J-F; +H+I+C; +P; +O; +O+M+L; -O-P; +M-L+P; .
Toppings: Toppings: CELP No pizza can satisfy these requests.