Being confident that your software is correct involves more than just writing code you think is right. That’s why we write tests. As computer scientists, we should therefore think about taking this a step further: to automate testing. How can we do that? We’ll see in this assignment.
There’s another motivation for what we’re going to do, which illustrates a weakness in the nature of testing as you’ve done it until now. When a test fails, the error is either in the implementation of the function (most likely) or in the test itself (usually less likely, but certainly possible). However, there is a third, more subtle reason: both the implementation and test are correct, but the implementation returned a different result than the test expected. The most likely cause is that the problem statement allows a given input to produce multiple different answers.
Right and Wrong by Cameo Culture
This assignment is not sponsored by any particular large technology company.
| person(name, age)
Given a list of these people, suppose we want to sort them by increasing age. This ordering expressly does not say what should happen to people whose ages are the same; therefore, every permutation of their names is valid. As a result, concrete tests (i.e., ones where you write a specific output corresponding to an input) may fail for no good reason.
The problem lies in the fact that we wrote concrete tests at all. Instead, we should have written a function that checks whether the output has the right relationship with the input; then, all the valid outputs for a given input would pass, but no others. This checking function is sometimes called an oracle.
That is what we will do in this assignment: write a testing oracle for a function that sorts lists of Persons. Your oracle will be given purported implementations of such a sort function, and it must (try to) determine whether the given function is indeed a valid sorter or not. In addition, you will write a generator of inputs. Combining the two, you arrive at a system that automates the testing of solutions to this problem.
You have not been given any wheats and chaffs (as noted below), but you still get the setup of three buffers to organize your work, in case that helps.
Your assignment has three tasks:
- Write a function named generate-input that generates a list of random Persons. It should take a non-negative integer length, and return a list of that many randomly constructed people. You will probably find it helpful to use num-random for ages. Names should also be randomly generated. Choosing from a pool of names is not sufficiently random; instead, you might consider using string-from-code-points.
generate-input :: Number -> List<Person>Keep in mind that you would not be able to directly test generate-input, as it returns random lists. However, you could still write tests to check whether the value it produces has reasonable properties.
- Write a function that determines whether the second input is a sorted version of the first.
is-valid :: List<Person>, List<Person> -> Boolean
- Using is-valid and generate-input, write a function that tests whether an algorithm is a valid sorter. Note that you must use generate-input (possibly many times), but should also explicitly include any edge cases that you think are important.
oracle :: (List<Person> -> List<Person>) -> Boolean
Note that the argument to oracle is a function that consumes a list of Person and produces a list of Person (that’s what the notation (List<Person> -> List<Person>) means).
To do well on this assignment, you will want to spend time considering
different types of incorrect output an algorithm might produce, and
make sure your oracle covers all those cases. Of course, we may have
thought up cases you didn’t, so your oracle needs to be general, not
specific to those cases.However, we will not use
especially perverse non-sorters—
import lists as L
fun correct-sorter(people :: List<Person>) -> List<Person>:
doc: ```Consumes a list of people and produces a list of people
that are sorted by age in ascending order.```
lam(p1, p2): p1.age < p2.age end,
lam(p1, p2): p1.age == p2.age end)
tdelvecc = person("Thomas", 18)
sli96 = person("Ell", 65)
jmcclel1 = person("Julia", 32)
correct-sorter(empty) is empty
correct-sorter([list: sli96]) is [list: sli96]
correct-sorter([list: sli96, tdelvecc]) is [list: tdelvecc, sli96]
correct-sorter([list: tdelvecc, sli96]) is [list: tdelvecc, sli96]
correct-sorter([list: tdelvecc, sli96, jmcclel1])
is [list: tdelvecc, jmcclel1, sli96]
One natural question you might have is how many tests you have to write of your oracle. It’s fine to have only one “positive” test, namely using sort or sort-by. You should have several “negative” tests (namely, functions that do not sort correctly).
You do not need to follow the recipe (write tests, etc.) of
In previous assignments, we wrote programs that are deterministic. That is, on a given input, they always produce the same output.
The testing oracle you will be implementing is non-deterministic: that is, because of randomness, your oracle may not always return the same output on a fixed input. Thus, the results of your tests could change from run to run. For example, when running your oracle on a wrong implementation, your oracle could catch the bug one time it is run, and miss it the next time.
Almost always, we prefer deterministic testing. It provides replicable results that are easier to debug. However, there are cases where deterministic testing is undesirable or impossible, such as in this assignment.
When dealing with non-deterministic functions, you will always have some amount of unpredictability. This unpredictability cannot be eliminated, but there are ways you can try to minimize it. Think of how you could decrease the chance your oracle reports incorrect implementations as correct.
There is no Examplar for this assignment. (If you’re curious why, think about what a wheat must be able to do.) You will still be required to turn in a final test suite.
For this assignment, you should not use any libraries that are not explicitly permitted. We are permitting you the number and string libraries, and from the list library, only map, filter, the two folds, sort, and sort-by. You should be able to implement everything else you need on your own. (If you think we’re mistaken, please ask on Campuswire.) However, you are allowed to use other functions in your check blocks.
Please also remember to follow our coding guidelines.
sortacle-code.arr and sortacle-tests.arr