+(load "codegen.scm")
(load "typecheck.scm")
-(define (test actual expected)
- (when (not (equal? actual expected))
+(define (test-f pred actual expected)
+ (when (not (pred actual expected))
(error #f
(format "test failed:\nexpected: ~a\nactual: ~a"
expected actual))))
-(test (typecheck '(lambda (x) (+ ((lambda (y) (x y 3)) 5) 2)))
- '(abs (abs int (abs int int)) int))
+(define (test . xs) (apply test-f (cons equal? xs)))
+
+(define-syntax test-types
+ (syntax-rules ()
+ ((_ a e)
+ (begin
+ (display (quote a))
+ (newline)
+ (test-f types-equal? a e)))))
+
+(define (read-file file)
+ (call-with-input-file file
+ (lambda (p)
+ (let loop ((next (read-char p))
+ (result ""))
+ (if (eof-object? next)
+ result
+ (loop (read-char p) (string-append result (string next))))))))
+
+(define (test-prog prog exit-code)
+ (display prog)
+ (newline)
+ (compile-to-binary prog "/tmp/test-prog" host-os)
+ (test (system "/tmp/test-prog") exit-code))
+
+(define (test-expr prog exit-code)
+ (test-prog (list prog) exit-code))
+
+(define (test-prog-stdout prog output)
+ (display prog)
+ (newline)
+ (compile-to-binary prog "/tmp/test-prog" host-os)
+ (system "/tmp/test-prog > /tmp/test-output.txt")
+ (let ((str (read-file "/tmp/test-output.txt")))
+ (test str output)))
+
+(test-types (typecheck '((lambda (x) (+ ((lambda (y) (x y 3)) 5) 2))))
+ '(abs (abs Int (abs Int Int)) Int))
+
+ ; recursive types
+
+(test-types (substitute '((t1 . (abs t1 t10))) 't1) '(abs t1 t10))
+
+(test-types (typecheck '((let ([bar (lambda (y) y)]
+ [foo (lambda (x) (foo (bar #t)))])
+ foo)))
+ '(abs Bool a))
+
+(test-types (typecheck '((let ([bar (lambda (y) y)]
+ [foo (lambda (x) (foo (bar #t)))])
+ bar)))
+ '(abs a a))
+
+(test-types (typecheck '((let ([foo 3]
+ [bar (+ foo baz)]
+ [baz (- bar 1)])
+ bar)))
+ 'Int)
+
+(test-types (typecheck '((let ([foo 3]
+ [bar (baz foo)]
+ [baz (lambda (x) x)])
+ baz)))
+ '(abs a a))
+
+(test-types (typecheck '((let ([foo 3]
+ [bar (baz foo)]
+ [baz (lambda (x) x)])
+ bar)))
+ 'Int)
+
+ ; mutual recursion
+(test-types (typecheck '((let ([f (lambda (n) (if (= n 0)
+ 0
+ (+ 1 (g (- n 1)))))]
+ [g (lambda (m) (f m))])
+ (f 10))))
+ 'Int)
+
+(test-types (typecheck '((let ([pow (lambda (p y)
+ (let ([go (lambda (n x)
+ (if (= n 0)
+ x
+ (go (- n 1) (* x y))))])
+ (go p 1)))])
+ (pow 4 2))))
+ 'Int)
+
+(test-types
+ (typecheck
+ '((data A
+ [foo Int]
+ [bar Bool])
+ (let ([x (foo 42)]
+ [(foo y) x])
+ x)))
+ 'A)
+
+(test-types
+ (typecheck
+ '((data A
+ [foo Int]
+ [bar Bool])
+ (let ([x (foo 42)]
+ [(foo y) x])
+ y)))
+ 'Int)
+
+(test-expr '(+ 1 2) 3)
+(test-expr '(bool->int (= 2 0)) 0)
+(test-expr '((lambda (x) ((lambda (y) (+ x y)) 42)) 100) 142)
+
+(test-expr '(* 10 5) 50)
+
+(test-expr '(let ((x (+ 1 32))
+ (y x))
+ ((lambda (z) (+ 2 z)) (* y x)))
+ 67) ; exit code modulos at 256
+(test-expr '(if ((lambda (x) (= x 2)) 1) 0 (- 32 1)) 31)
+
+(test-prog-stdout '((if (= 3 2) 1 (let () (print "hello world!") 0))) "hello world!")
+
+(test-expr '((lambda (x y) (+ x y)) 1 2) 3)
+(test-expr '((lambda (x) (+ ((lambda (y) (+ y 1)) 3) x)) 2) 6)
+
+ ; passing closures about
+(test-expr '((lambda (z) ((lambda (x) (x 1)) (lambda (y) (+ z y)))) 2) 3)
+
+ ; passing builtins about
+(test-expr '((lambda (x) ((lambda (a b) (a b 3)) + x)) 3) 6)
+(test-expr '(bool->int ((lambda (x) (x #f)) !)) 1)
+(test-expr '((lambda (f) (f #t)) bool->int) 1)
+(test-prog-stdout '((let () ((lambda (f) (f "foo")) print) 0)) "foo")
+(test-expr '((lambda (f) (f 3 3)) (lambda (x y) (bool->int (= x y)))) 1)
+(test-expr '(bool->int ((lambda (f) (! (f 2 3))) =)) 1)
+
+ ; recursion
+(test-expr '(let [(inc (lambda (f n x)
+ (if (= n 0)
+ x
+ (f f (- n 1) (+ x 1)))))]
+ (inc inc 3 2))
+ 5)
+
+(test-expr '(let ([go (lambda (n m x)
+ (if (= n 0)
+ x
+ (go (- n 1) m (* x m))))]
+ [pow (lambda (p y) (go p y 1))])
+
+ (pow 3 2))
+ 8)
+
+(test-expr '(let ([pow (lambda (p y)
+ (let ([go (lambda (n x)
+ (if (= n 0)
+ x
+ (go (- n 1) (* x y))))])
+ (go p 1)))])
+ (pow 4 2))
+ 16)
+
+(test-prog-stdout '(let ([f (lambda (n)
+ (if (= n 0)
+ 0
+ (let ()
+ (print "a")
+ (g (- n 1)))))]
+ [g (lambda (m)
+ (let ()
+ (print "b")
+ (f (- m 1))))])
+ (f 10)) "ababababab")