WIP in let-binding pattern match stuff

[scheme.git] / ast.scm

(define (ast-type x)
  (define (builtin? x)
    (case x
      ('+ #t)
      ('- #t)
      ('* #t)
      ('! #t)
      ('= #t)
      ('bool->int #t)
      ('print #t)
      (else #f)))
  (cond
   ((list? x)
    (case (car x)
      ('if 'if)
      ('let 'let)
      ('lambda 'lambda)
      ('closure 'closure) ; only available in codegen
      ('static-string 'static-string) ; only available in codegen
      (else 'app)))
   ((builtin? x) 'builtin)
   ((symbol? x) 'var)
   ((integer? x) 'int-literal)
   ((boolean? x) 'bool-literal)
   ((string? x) 'string-literal)))

(define (ast-traverse f x)
  (case (ast-type x)
    ('let `(let ,(map (lambda (x) (list (car x) (f (cadr x))))
                      (let-bindings x))
             ,@(map f (let-body x))))
    ('app (map f x))
    ('lambda `(lambda ,(lambda-args x) ,(f (lambda-body x))))
    ('if `(if ,@(map f (cdr x))))
    (else x)))

(define (ast-collect f x)
  (define (inner y) (ast-collect f y))
  (case (ast-type x)
    ['let (append (f x)
                  (flat-map inner (let-bindings x))
                  (flat-map inner (let-body x)))]
    ['app (append (f x)
                  (flat-map inner x))]
    ['lambda (append (f x)
                     (inner (lambda-body x)))]
    ['if (append (f x)
                 (flat-map inner (cdr x)))]
    [else (f x)]))

(define (ast-find p x)
  (define (inner y) (ast-find p y))
  (define (any p x) (fold-left
                     (lambda (acc y) (if acc #t (p y)))
                     #f
                     x))
  (define (either . fs)
    (if (null? fs) #f
        (if (car fs) (car fs)
            (apply either (cdr fs)))))
                     
  (case (ast-type x)
    ['let (either (p x)
                  (any inner (let-bindings x))
                  (any inner (let-body x)))]
    ['app (either (p x)
                  (any inner x))]
    ['lambda (either (p x)
                     (inner (lambda-body x)))]
    ['if (either (p x) (any inner (cdr x)))]
    [else (p x)]))

(define (let-bindings e)
  (define (pattern-match x body)
    (if (eqv? (ast-type x) 'var)
        (cons x body)
        (let* ([constructor (car x)]
              [destructor (lambda (i) `(destruct ,i ,constructor))])
          (flat-map (lambda (y i)
                      (pattern-match y (list (destructor i) body)))
                    (cdr x)
                    (range 0 (length (cdr x)))))))
  (flat-map (lambda (x) (pattern-match (car x) (cdr x))) (cadr e)))
(define let-body cddr)

(define (lambda? x)
  (and (list? x) (eq? (car x) 'lambda)))


(define (statement-type x)
  (cond
   [(and (list? x)
         (eqv? (car x) 'data)) 'data]
   [(and (list? x)
         (eqv? (car x) 'define)) 'define]
   [else 'expr]))

(define (program-datas program)
  (filter (lambda (x) (eqv? (statement-type x) 'data))
          program))

(define (program-defines program)
  (filter (lambda (x) (eqv? (statement-type x) 'defines))
          program))

(define (program-body program)
  `(let ()
     ,@(filter (lambda (x) (eqv? (statement-type x) 'expr))
               program)))

; for use in normalized form
(define lambda-arg caadr)
; for use elsewhere
(define lambda-args cadr)
(define lambda-body caddr)

                                        ; 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 '() (map 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))))