+(load "utils.scm")
+
(define (ast-type x)
(define (builtin? x)
(case x
('if 'if)
('let 'let)
('lambda 'lambda)
+ ('case 'case)
('closure 'closure) ; only available in codegen
('static-string 'static-string) ; only available in codegen
('stack 'stack) ; only available in codegen (tag that value is passed via stack)
('app (map f x))
('lambda `(lambda ,(lambda-args x) ,(f (lambda-body x))))
('if `(if ,@(map f (cdr x))))
- ('stack `(stack ,(cadr x) ,(map f (caddr x))))
+ ('case `(case ,(f (case-switch x))
+ ,@(map (lambda (x)
+ (list (car x) (f (cadr x))))
+ (case-cases x))))
+ ('stack `(stack ,(cadr x) ,(f (caddr x))))
(else x)))
(define (ast-collect f x)
(inner (lambda-body x)))]
['if (append (f x)
(flat-map inner (cdr x)))]
+ ['case (append (f x)
+ (inner (case-switch x))
+ (flat-map inner (map cadr (case-cases x))))]
['stack (append (f x)
(inner (caddr x)))]
[else (f x)]))
['lambda (either (p x)
(inner (lambda-body x)))]
['if (either (p x) (any inner (cdr x)))]
+ ['case (either (p x)
+ (any inner (map cadr (case-cases x)))
+ (inner (case-switch x)))]
['stack (either (p x) (inner (caddr x)))]
[else (p x)]))
(define let-bindings cadr)
(define let-body cddr)
+(define case-switch cadr)
+(define case-cases cddr)
+
+;; (define (verify-cases data-layouts annotated-program)
+
+;; (define allowed-match-ast-types
+;; '((Int . (int-literal var))
+;; (Bool . (bool-literal var))
+;; (String . (string-literal var))))
+
+;; (define (check-pattern switch-type pat)
+
+;; (define (impossible-match)
+;; (error "Can't pattern match ~a with ~a" switch-type (ann-expr pat)))
+
+;; (if (assoc switch-type data-layouts)
+;; (begin
+;; (let ([sums (cdr (assoc switch-type data-layouts))])
+;; (unless (eqv? (ast-type (ann-expr pat)) 'var) (impossible-match))
+;; (unless (assoc (car (ann-expr pat)) sums) (impossible-match))
+;; (unless
+;; )
+;; (begin
+;; (unless (assoc switch-type allowed-match-ast-types)
+;; (error #f "Can't pattern match on ~a" switch-type))
+
+;; (let ([allowed (cdr (assoc switch-type allowed-match-ast-types))])
+;; (unless (assoc (ast-type (ann-expr pat)) allowed) (impossible-match)))))))
+
+
+;; (let ([expr (ann-expr annotated-program)])
+;; (case (ast-type expr)
+;; ['case
+;; (let* ([switch-type (ann-type (case-switch expr))]
+;; [allowed (cdr (assoc switch-type allowed-match-ast-types))])
+;; (for-each
+;; []))]))))
+
+
; (let ([(foo a b) (foo 123 345)]) a)
; |
; v
; (let ([a (foo~0 (foo 123 345)]
; [b (foo~1 (foo 123 345)]) a)
-(define (expand-pattern-matches x)
- (define (pattern-match binding)
+(define (expand-pattern-matches program)
+ (define (go x)
+ (define (let-pattern-match binding)
(let ([binding-name (car binding)]
[body (cadr binding)])
(if (eqv? (ast-type binding-name) 'var)
(list (list binding-name body))
+
(let* ([sum-name (car binding-name)]
- [destructor (lambda (i) (dtor-name sum-name i))])
+ [destructor (lambda (i) (dtor-name sum-name i))]
+ [products (cdr binding-name)]
+
+ [data-layouts (program-data-layouts program)]
+
+ [type (data-tor-type data-layouts sum-name)]
+
+ [sums (cdr (assoc type data-layouts))]
+ [sum (assoc sum-name sums)]
+
+ [expected-number (length (cdr sum))])
+
+ ; assert that we only do a let pattern match on an ADT with exactly one sum
+ (when (not (= 1 (length sums)))
+ (error #f (format "Cannot pattern match a ~a in a let since it has ~a possible constructors"
+ type
+ (length sums))))
+
+ ; assert that there is the correct number of bindings
+ (when (not (= (length products)
+ expected-number))
+ (error #f (format "Got ~a bindings: expected ~a for ~a"
+ (length products)
+ expected-number
+ binding)))
+
(flat-map (lambda (y i)
- (pattern-match (list y `(,(destructor i) ,body))))
- (cdr binding-name)
- (range 0 (length (cdr binding-name))))))))
+ (let-pattern-match (list y `(,(destructor i) ,body))))
+ products
+ (range 0 (length products)))))))
+
(case (ast-type x)
- ['let `(let ,(flat-map pattern-match (let-bindings x))
- ,@(map expand-pattern-matches (let-body x)))]
- [else (ast-traverse expand-pattern-matches x)]))
+ ['let `(let ,(flat-map let-pattern-match (let-bindings x))
+ ,@(map go (let-body x)))]
+ [else (ast-traverse go x)]))
+ (program-map-exprs go program))
(define (lambda? x)
(and (list? x) (eq? (car x) 'lambda)))
-
(define (statement-type x)
(cond
[(and (list? x)
,@(filter (lambda (x) (eqv? (statement-type x) 'expr))
program)))
+(define (data-tor-type data-layouts tor)
+ (let* ([tors (flat-map data-tors data-layouts)]
+ [info (cadr (assoc tor tors))])
+ (car info)))
+
; a data tor is either a constructor or destructor for an ADT
; data-tors returns constructors and destructors for a data-layout
; (data A (foo Int Bool)
; |
; v
; (foo . ((A foo constructor) . (abs Int (abs Bool A))))
- ; (foo~0 . ((A foo 0) . (abs A Int)))
- ; (foo~1 . ((A foo 1) . (abs A Bool)))
+ ; (foo~0 . ((A foo 0 Int) . (abs A Int)))
+ ; (foo~1 . ((A foo 1 Bool) . (abs A Bool)))
; (bar . ((A bar constructor) . (abs Bool A)))
- ; (bar~0 . ((A bar 0) . (abs A Bool)))
+ ; (bar~0 . ((A bar 0 Bool) . (abs A Bool)))
; ------+-------------------------------------
; tor | info | type
(fold-right (lambda (x acc) `(abs ,x ,acc)) t products))
(define (destructor ctor-name prod-type part-type index)
- (let ([name (dtor-name ctor-name index)])
- (cons name (cons (list prod-type ctor-name index) `(abs ,prod-type ,part-type)))))
+ (let* ([name (dtor-name ctor-name index)]
+ [info (list prod-type ctor-name index part-type)])
+ (cons name (cons info `(abs ,prod-type ,part-type)))))
(let ([type-name (car data-layout)]
[ctors (cdr data-layout)])
(strong-connect v)))
(car graph)))
result))
-
-
- ; utils
-
-(define (range s n)
- (if (= 0 n) '()
- (append (range s (- n 1))
- (list (+ s (- n 1))))))
-
-(define (flat-map f . xs) (fold-left append '() (apply map (cons f xs))))
-(define (repeat x n) (if (<= n 0) '()
- (cons x (repeat x (- n 1)))))
-
-
-(define-syntax push!
- (syntax-rules ()
- ((_ s x) (set! s (cons x s)))))
-
-(define-syntax pop!
- (syntax-rules ()
- ((_ s) (let ([x (car s)])
- (set! s (cdr s))
- x))))