Start DrScheme.
a. Write the all-real? procedure described in the
accompanying reading.
b. What preconditions should all-real? have?
c. Is it necessary to test those preconditions? Why or why not?
Revise the definition of greatest-of-list given in the
corresponding reading so that
it prints a different (and appropriate) error message for each error
condition.
I'd recommend that you use cond rather than if
in writing this revised version.
Revise the definition of the count-from procedure presented in
the reading on
recursion with natural numbers so that it enforces the precondition
that its first argument be less than or equal to its second argument.
Here is a procedure that computes the product of all of the odd natural
numbers up to and including number:
(define odd-factorial
(lambda (number)
(if (= number 1)
1
(* number (odd-factorial (- number 2))))))
a. What precondition or preconditions
does odd-factorial impose on its argument?
b. What will happen if these preconditions are not met?
c. Revise the definition of odd-factorial as a
husk-and-kernel program in which the husk enforces the precondition.
d. How can we be certain, in this case, that none of the recursive
calls we make to the kernel procedure violates the precondition?
a. Describe (using the six-P style), define, and test a procedure
named index that takes a symbol sym and a
list ls of symbols as its arguments and returns the index
of sym in ls. You should use 0-based indices
(so that the initial value in a list is at index 0).
> (index 'gamma (list 'alpha 'beta 'gamma 'delta))
2
> (index 'easy (list 'easy 'medium 'difficult 'impossible))
0
> (index 'the (list 'and 'the 'cat 'sat 'on 'the 'mat))
1
b. Arrange for index to signal an error (by invoking the
error procedure) if sym does not occur at all as
an element of ls.
Describe (using the six P style), define, and test a procedure
named substitute that takes three arguments -- a
symbol new, another symbol old, and a list
ls of symbols -- and returns a list just like ls
except that every occurrence of old has been replaced with
an occurrence of new. Use the husk-and-kernel structure to
make sure that new and old are symbols and that
ls is a list of symbols before starting into the recursion.
> (substitute 'alpha 'omega (list 'phi 'chi 'psi 'omega 'omega)
(phi chi psi alpha alpha)
> (substitute 'starboard 'port (list 'port 'starboard 'port 'port))
(starboard starboard starboard starboard)
> (substitute 'in 'out null)
()
> (substitute "in" 'out null)
substitute: expected a symbol as first parameter
> (substitute 'in 'out (list 'alpha "beta" 23))
substitute: expected a list of symbols as third parameter
;
Check with Bobby