156 lines
4.5 KiB
Scheme
156 lines
4.5 KiB
Scheme
; -*- scheme -*-
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; utilities for AST processing
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(define (symconcat s1 s2)
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(intern (string s1 s2)))
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(define (list-adjoin item lst)
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(if (member item lst)
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lst
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(cons item lst)))
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(define (index-of item lst start)
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(cond ((null? lst) #f)
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((eq item (car lst)) start)
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(#t (index-of item (cdr lst) (+ start 1)))))
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(define (each f l)
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(if (null? l) l
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(begin (f (car l))
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(each f (cdr l)))))
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(define (maptree-pre f tr)
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(let ((new-t (f tr)))
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(if (pair? new-t)
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(map (lambda (e) (maptree-pre f e)) new-t)
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new-t)))
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(define (maptree-post f tr)
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(if (not (pair? tr))
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(f tr)
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(let ((new-t (map (lambda (e) (maptree-post f e)) tr)))
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(f new-t))))
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(define (foldtree-pre f t zero)
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(if (not (pair? t))
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(f t zero)
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(foldl t (lambda (e state) (foldtree-pre f e state)) (f t zero))))
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(define (foldtree-post f t zero)
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(if (not (pair? t))
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(f t zero)
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(f t (foldl t (lambda (e state) (foldtree-post f e state)) zero))))
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; general tree transformer
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; folds in preorder (foldtree-pre), maps in postorder (maptree-post)
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; therefore state changes occur immediately, just by looking at the current node,
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; while transformation follows evaluation order. this seems to be the most natural
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; approach.
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; (mapper tree state) - should return transformed tree given current state
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; (folder tree state) - should return new state
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(define (map&fold t zero mapper folder)
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(let ((head (and (pair? t) (car t))))
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(cond ((eq? head 'quote)
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t)
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((or (eq? head 'the) (eq? head 'meta))
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(list head
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(cadr t)
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(map&fold (caddr t) zero mapper folder)))
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(else
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(let ((new-s (folder t zero)))
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(mapper
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(if (pair? t)
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; head symbol is a tag; never transform it
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(cons (car t)
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(map (lambda (e) (map&fold e new-s mapper folder))
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(cdr t)))
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t)
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new-s))))))
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; collapse forms like (&& (&& (&& (&& a b) c) d) e) to (&& a b c d e)
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(define (flatten-left-op op e)
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(maptree-post (lambda (node)
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(if (and (pair? node)
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(eq (car node) op)
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(pair? (cdr node))
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(pair? (cadr node))
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(eq (caadr node) op))
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(cons op
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(append (cdadr node) (cddr node)))
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node))
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e))
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; convert all local variable references to (lexref rib slot name)
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; where rib is the nesting level and slot is the stack slot#
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; name is just there for reference
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; this assumes lambda is the only remaining naming form
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(define (lookup-var v env lev)
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(if (null? env) v
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(let ((i (index-of v (car env) 0)))
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(if i (list 'lexref lev i v)
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(lookup-var v (cdr env) (+ lev 1))))))
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(define (lvc- e env)
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(cond ((symbol? e) (lookup-var e env 0))
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((pair? e)
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(if (eq (car e) 'quote)
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e
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(let* ((newvs (and (eq (car e) 'lambda) (cadr e)))
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(newenv (if newvs (cons newvs env) env)))
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(if newvs
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(cons 'lambda
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(cons (cadr e)
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(map (lambda (se) (lvc- se newenv))
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(cddr e))))
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(map (lambda (se) (lvc- se env)) e)))))
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(#t e)))
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(define (lexical-var-conversion e)
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(lvc- e ()))
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; convert let to lambda
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(define (let-expand e)
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(maptree-post (lambda (n)
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(if (and (pair? n) (eq (car n) 'let))
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`((lambda ,(map car (cadr n)) ,@(cddr n))
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,@(map cadr (cadr n)))
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n))
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e))
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; alpha renaming
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; transl is an assoc list ((old-sym-name . new-sym-name) ...)
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(define (alpha-rename e transl)
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(map&fold e
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()
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; mapper: replace symbol if unbound
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(lambda (t env)
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(if (symbol? t)
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(let ((found (assq t transl)))
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(if (and found
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(not (memq t env)))
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(cdr found)
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t))
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t))
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; folder: add locals to environment if entering a new scope
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(lambda (t env)
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(if (and (pair? t) (or (eq? (car t) 'let)
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(eq? (car t) 'lambda)))
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(append (cadr t) env)
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env))))
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; flatten op with any associativity
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(define-macro (flatten-all-op op e)
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`(pattern-expand
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(pattern-lambda (,op (-- l ...) (-- inner (,op ...)) (-- r ...))
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(cons ',op (append l (cdr inner) r)))
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,e))
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(define-macro (pattern-lambda pat body)
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(let* ((args (patargs pat))
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(expander `(lambda ,args ,body)))
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`(lambda (expr)
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(let ((m (match ',pat expr)))
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(if m
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; matches; perform expansion
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(apply ,expander (map (lambda (var) (cdr (or (assq var m) '(0 . #f))))
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',args))
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#f)))))
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