| ITEC 380 |
| 2019spring |
| ibarland |
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Complete the following tests, adding to the test cases already in the provided U0.
They should be complete, running tests (even though they may not pass yet,
and
Since you need to do U1 in both racket and Java, you need U1 tests for both languages (#1,#2).
However, for U2, you only need test cases for the language you are using for U2 (#3 or #4).
Attach two files:
the racket tests in one file,
and the Java tests in another.
(You can add these to the existing test files distributed with U0.)
When filling in the blanks below,
the result of
(require rackunit) (define prog0 "[8.1 rmd (3) |
You might add the following to the file ExprTest.java.
@Test
void testAFew() {
String prog0 = "[8.1 rmd (3) |
If you are using JUnit (see how to run JUnit), these tests should work directly. Otherwise, you might want to write your own method
void assertEquals( Object actual, Object expected ) {
if (!actual.equals(expected)) {
System.err.printf("assertion failed:\nExpect: %s\nActual: %s\n", expected.toString(), actual.toString() );
}
}
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(define prog2 "let x get 5 for [4 mlt x]") ;1 (check-equal? (parse! prog2) ) (check-equal? (expr->string (parse! prog2)) ) (check-equal? (eval (parse! prog2)) ) ; Make an additional example, where the `let` is *not* the top-level expression: ; Then, have the three tests for it, as above. ; For U2, the item B.iv mentions that you'll have to do substitution in a tree. ; Although `substitute` returns a *tree* (an Expr), ; we can use `parse!` (already tested!) to help us generate our expected-results. ; (check-equal? (substitute "x" 9 (parse! "3")) (parse! ) ) (check-equal? (substitute "x" 9 (parse! "x")) (parse! ) ) (check-equal? (substitute "z" 7 (parse! "x")) (parse! ) ) (check-equal? (substitute "z" 7 (parse! "[4 sbt z]")) (parse! ) ) (check-equal? (substitute "z" 7 (parse! "let x get z for [x mlt z]")) (parse! ) ) ; Give at least one more interesting tree, to test `substitute` on, ; with parse-tree of height of 2 or more. ; You do *not* need to do `substitute` on a parse tree containing a `let` inside of it ... yet. ; (But you are encouraged to start thinking about what you want to happen, in that situation.) |
String prog2 = "let x get 5 for [4 mlt x]";
assertEquals( Expr.parse(prog2), );
assertEquals( Expr.parse(prog2).toString(), );
assertEquals( Expr.parse(prog2).eval(), );
/*
; Make an example, where the `let` is *not* the top-level expression:
; Then, have the three tests for it, as above.
*/
/*
; For U2, item B.iv mentions that you'll have to do substitution in a tree.
; Although `substitute` returns a *tree* (an Expr),
; we can use `parse` (already tested!) to help us generate our expected-results.
*/
assertEquals( Expr.parse("3").substitute(new Id("x"),new Num(9)), Expr.parse( ) );
assertEquals( Expr.parse("x").substitute(new Id("x"),new Num(9)), Expr.parse( ) );
assertEquals( Expr.parse("x").substitute(new Id("z"),new Num(7)), Expr.parse( ) );
assertEquals( Expr.parse("[4 sbt z]").substitute(new Id("z"),new Num(7)), Expr.parse( ) );
assertEquals( Expr.parse("let x get z for [x mlt z]").substitute(new Id("z"),new Num(7)),
Expr.parse( ) );
/*
; Give at least one more interesting tree, to test `substitute` on,
; with parse-tree of height 2 or more.
; You do *not* need to do `substitute` on a parse tree containing a `let` inside of it ... yet.
; (But you are encouraged to start thinking about what you want to happen, in that situation.)
*/
}
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This code should compile and run,
though of course they won't yet pass.
(Note that before these tests compile/run,
you'll need to define the structs/classes for
These tests are not meant to be comprehensive of everything you'll eventually want to test for. They are just intended to get you started on the homework, and understanding what the functions need to do, before the weekend.
 This page licensed CC-BY 4.0 Ian Barland Page last generated | Please mail any suggestions (incl. typos, broken links) to ibarland  radford.edu |
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