(emit "notq %rax")
(emit "andq $1, %rax"))
+(define (codegen-eq a b si env)
+ (codegen-expr a si env)
+ (emit "movq %rax, ~a(%rsp)" si)
+ (codegen-expr b (- si wordsize) env)
+ (emit "subq ~a(%rsp), %rax" si)
+ (emit "not %rax")
+ (emit "andq $1, %rax"))
+
(define (range s n)
(if (= 0 n) '()
(append (range s (- n 1))
; for now we can only call closures
(define (codegen-call closure args si env)
+ (when (not (eq? (ast-type closure) 'closure))
+ (error #f (format "~a is not a closure" closure)))
(let* ((captured (caddr closure))
(label (cadr closure))
(argument-start (length captured)))
(codegen-expr body (* (- wordsize) (length vars)) env)
)))) ; move args and capture vars to stack
+(define cur-label 0)
+(define (fresh-label)
+ (set! cur-label (+ 1 cur-label))
+ (format "label~a" (- cur-label 1)))
+
+(define (codegen-if cond then else si env)
+ (codegen-expr cond si env)
+ (emit "cmpq $0, %rax")
+ (let ((exit-label (fresh-label))
+ (else-label (fresh-label)))
+ (emit "je ~a" else-label)
+ (codegen-expr then si env)
+ (emit "jmp ~a" exit-label)
+ (emit "~a:" else-label)
+ (codegen-expr else si env)
+ (emit "~a:" exit-label)))
+
(define (codegen-expr e si env)
(case (ast-type e)
('builtin e)
('- (codegen-sub (cadr e) (caddr e) si env))
('* (codegen-mul (cadr e) (caddr e) si env))
('! (codegen-not (cadr e) si env))
+ ('= (codegen-eq (cadr e) (caddr e) si env))
('bool->int (codegen-expr (cadr e) si env))
(else (codegen-call callee (cdr e) si env)))))
('var (codegen-var e si env))
+ ('if (codegen-if (cadr e) (caddr e) (cadddr e) si env))
+
('string-literal (emit "movq ~a, %rax" label))
('bool-literal (emit "movq $~a, %rax" (if e 1 0)))
('int-literal (emit "movq $~a, %rax" e))
(define (extract e)
(case (ast-type e)
('lambda (add-lambda e))
- ('let `(let
- ,(map extract (let-bindings e))
+ ('let `(let ,(map extract (let-bindings e))
,@(map extract (let-body e))))
('app (append (list (extract (car e)))
(map extract (cdr e))))
- (else e)))
+ (else (ast-traverse extract e))))
(let ((transformed (extract program)))
(cons lambdas transformed)))
(car xs)
(last (cdr xs))))
-
(define (normalize prog) ; (+ a b) -> ((+ a) b)
(case (ast-type prog)
('lambda
`(,(normalize (car prog)) ,(normalize (cadr prog))) ; (f a)
`(,(list (normalize (car prog)) (normalize (cadr prog)))
,(normalize (caddr prog))))) ; (f a b)
- ;; (list (list (normalize (car prog))
- ;; (normalize (cadr prog))) (normalize (caddr prog))))) ; (f a b)
('let
(append (list 'let
(map (lambda (x) `(,(car x) ,(normalize (cadr x))))
(let-bindings prog)))
(map normalize (let-body prog))))
- ('if `(if ,(normalize (cadr prog))
- ,(normalize (caddr prog))
- ,(normalize (cadddr prog))))
- (else prog)))
+ (else (ast-traverse normalize prog))))
(define (builtin-type x)
(case x