3936 lines
152 KiB
Scheme
3936 lines
152 KiB
Scheme
;;; Copyright (c) 2006, 2007 Abdulaziz Ghuloum and Kent Dybvig
|
|
;;;
|
|
;;; Permission is hereby granted, free of charge, to any person obtaining a
|
|
;;; copy of this software and associated documentation files (the "Software"),
|
|
;;; to deal in the Software without restriction, including without limitation
|
|
;;; the rights to use, copy, modify, merge, publish, distribute, sublicense,
|
|
;;; and/or sell copies of the Software, and to permit persons to whom the
|
|
;;; Software is furnished to do so, subject to the following conditions:
|
|
;;;
|
|
;;; The above copyright notice and this permission notice shall be included in
|
|
;;; all copies or substantial portions of the Software.
|
|
;;;
|
|
;;; THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
|
|
;;; IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
|
|
;;; FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
|
|
;;; THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
|
|
;;; LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
|
|
;;; FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
|
|
;;; DEALINGS IN THE SOFTWARE.
|
|
|
|
(library (psyntax expander)
|
|
(export identifier? syntax-dispatch environment environment?
|
|
eval expand generate-temporaries free-identifier=?
|
|
bound-identifier=? datum->syntax syntax-error
|
|
syntax-violation
|
|
syntax->datum make-variable-transformer
|
|
compile-r6rs-top-level boot-library-expand
|
|
null-environment scheme-report-environment
|
|
interaction-environment
|
|
ellipsis-map)
|
|
(import
|
|
(only (ikarus) printf)
|
|
(except (rnrs)
|
|
environment environment? identifier?
|
|
eval generate-temporaries free-identifier=?
|
|
bound-identifier=? datum->syntax syntax-error
|
|
syntax-violation syntax->datum make-variable-transformer
|
|
null-environment scheme-report-environment)
|
|
(rnrs base)
|
|
(rnrs lists)
|
|
(rnrs control)
|
|
(rnrs io simple)
|
|
(rnrs mutable-pairs)
|
|
(psyntax library-manager)
|
|
(psyntax builders)
|
|
(psyntax compat)
|
|
(psyntax config)
|
|
(psyntax internal)
|
|
(only (rnrs syntax-case) syntax-case syntax with-syntax)
|
|
(prefix (rnrs syntax-case) sys.))
|
|
|
|
(define (set-cons x ls)
|
|
(cond
|
|
((memq x ls) ls)
|
|
(else (cons x ls))))
|
|
|
|
(define (set-union ls1 ls2)
|
|
(cond
|
|
((null? ls1) ls2)
|
|
((memq (car ls1) ls2) (set-union (cdr ls1) ls2))
|
|
(else (cons (car ls1) (set-union (cdr ls1) ls2)))))
|
|
|
|
(define-syntax no-source
|
|
(lambda (x) #f))
|
|
|
|
;;; the body of a library, when it's first processed, gets this
|
|
;;; set of marks.
|
|
(define top-mark* '(top))
|
|
|
|
;;; consequently, every syntax object that has a top in its marks
|
|
;;; set was present in the program source.
|
|
(define top-marked?
|
|
(lambda (m*) (memq 'top m*)))
|
|
|
|
;;; This procedure generates a fresh lexical name for renaming.
|
|
;;; It's also use it to generate temporaries.
|
|
(define gen-lexical
|
|
(lambda (sym)
|
|
(cond
|
|
((symbol? sym) (gensym sym))
|
|
((stx? sym) (gen-lexical (id->sym sym)))
|
|
(else (assertion-violation 'gen-lexical "BUG: invalid arg" sym)))))
|
|
|
|
;;; gen-global is used to generate global names (e.g. locations
|
|
;;; for library exports). We use gen-lexical since it works just
|
|
;;; fine.
|
|
(define (gen-global x) (gen-lexical x))
|
|
|
|
;;; every identifier in the program would have a label associated
|
|
;;; with it in its substitution. gen-label generates such labels.
|
|
;;; the labels have to have read/write eq? invariance to support
|
|
;;; separate compilation.
|
|
(define gen-label
|
|
(lambda (_) (gensym)))
|
|
|
|
(define (gen-top-level-label id rib)
|
|
(define (find sym mark* sym* mark** label*)
|
|
(and (pair? sym*)
|
|
(if (and (eq? sym (car sym*)) (same-marks? mark* (car mark**)))
|
|
(car label*)
|
|
(find sym mark* (cdr sym*) (cdr mark**) (cdr label*)))))
|
|
(let ((sym (id->sym id))
|
|
(mark* (stx-mark* id)))
|
|
(let ((sym* (rib-sym* rib)))
|
|
(cond
|
|
[(and (memq sym (rib-sym* rib))
|
|
(find sym mark* sym* (rib-mark** rib) (rib-label* rib)))
|
|
=>
|
|
(lambda (label)
|
|
(cond
|
|
[(imported-label->binding label)
|
|
;;; create new label to shadow imported binding
|
|
(gensym)]
|
|
[else
|
|
;;; recycle old label
|
|
label]))]
|
|
[else
|
|
;;; create new label for new binding
|
|
(gensym)]))))
|
|
|
|
|
|
(define (gen-define-label+loc id rib)
|
|
(cond
|
|
[(top-level-context) =>
|
|
(lambda (env)
|
|
(let ([label (gen-top-level-label id rib)]
|
|
[locs (interaction-env-locs env)])
|
|
(values label
|
|
(cond
|
|
[(assq label locs) => cdr]
|
|
[else
|
|
(let ([loc (gen-lexical id)])
|
|
(set-interaction-env-locs! env
|
|
(cons (cons label loc) locs))
|
|
loc)]))))]
|
|
[else (values (gensym) (gen-lexical id))]))
|
|
|
|
|
|
(define (gen-define-label id rib)
|
|
(cond
|
|
[(top-level-context)
|
|
(gen-top-level-label id rib)]
|
|
[else (gensym)]))
|
|
|
|
|
|
;;; A rib is a record constructed at every lexical contour in the
|
|
;;; program to hold information about the variables introduced in that
|
|
;;; contour. Adding an identifier->label mapping to an extensible rib
|
|
;;; is achieved by consing the identifier's name to the list of
|
|
;;; symbols, consing the identifier's list of marks to the rib's
|
|
;;; mark**, and consing the label to the rib's labels.
|
|
|
|
(define-record rib (sym* mark** label* sealed/freq))
|
|
|
|
(define make-empty-rib
|
|
(lambda ()
|
|
(make-rib '() '() '() #f)))
|
|
|
|
;;; For example, when processing a lambda's internal define, a new rib
|
|
;;; is created and is added to the body of the lambda expression.
|
|
;;; When an internal definition is encountered, a new entry for the
|
|
;;; identifier is added (via side effect) to the rib. A rib may be
|
|
;;; extensible, or sealed. An extensible rib looks like:
|
|
;;; #<rib list-of-symbols list-of-list-of-marks list-of-labels #f>
|
|
|
|
(define (extend-rib! rib id label)
|
|
(define (find sym mark* sym* mark** label*)
|
|
(and (pair? sym*)
|
|
(if (and (eq? sym (car sym*)) (same-marks? mark* (car mark**)))
|
|
label*
|
|
(find sym mark* (cdr sym*) (cdr mark**) (cdr label*)))))
|
|
(when (rib-sealed/freq rib)
|
|
(assertion-violation 'extend-rib! "BUG: rib is sealed" rib))
|
|
(let ((sym (id->sym id))
|
|
(mark* (stx-mark* id)))
|
|
(let ((sym* (rib-sym* rib)))
|
|
(cond
|
|
[(and (memq sym (rib-sym* rib))
|
|
(find sym mark* sym* (rib-mark** rib) (rib-label* rib)))
|
|
=>
|
|
(lambda (p)
|
|
(unless (eq? label (car p))
|
|
(cond
|
|
[(top-level-context)
|
|
;;; override label
|
|
(set-car! p label)]
|
|
[else
|
|
;;; signal an error if the identifier was already
|
|
;;; in the rib.
|
|
(stx-error id "cannot redefine")])))]
|
|
[else
|
|
(set-rib-sym*! rib (cons sym sym*))
|
|
(set-rib-mark**! rib (cons mark* (rib-mark** rib)))
|
|
(set-rib-label*! rib (cons label (rib-label* rib)))]))))
|
|
|
|
|
|
;;; A rib can be sealed once all bindings are inserted. To seal
|
|
;;; a rib, we convert the lists sym*, mark**, and label* to vectors
|
|
;;; and insert a frequency vector in the sealed/freq field.
|
|
;;; The frequency vector is an optimization that allows the rib to
|
|
;;; reorganize itself by bubbling frequently used mappings to the
|
|
;;; top of the rib. The vector is maintained in non-descending
|
|
;;; order and an identifier's entry in the rib is incremented at
|
|
;;; every access. If an identifier's frequency exceeds the
|
|
;;; preceeding one, the identifier's position is promoted to the
|
|
;;; top of its class (or the bottom of the previous class).
|
|
|
|
(define (seal-rib! rib)
|
|
(let ((sym* (rib-sym* rib)))
|
|
(unless (null? sym*)
|
|
;;; only seal if rib is not empty.
|
|
(let ((sym* (list->vector sym*)))
|
|
(set-rib-sym*! rib sym*)
|
|
(set-rib-mark**! rib
|
|
(list->vector (rib-mark** rib)))
|
|
(set-rib-label*! rib
|
|
(list->vector (rib-label* rib)))
|
|
(set-rib-sealed/freq! rib
|
|
(make-vector (vector-length sym*) 0))))))
|
|
|
|
(define (unseal-rib! rib)
|
|
(when (rib-sealed/freq rib)
|
|
(set-rib-sealed/freq! rib #f)
|
|
(set-rib-sym*! rib (vector->list (rib-sym* rib)))
|
|
(set-rib-mark**! rib (vector->list (rib-mark** rib)))
|
|
(set-rib-label*! rib (vector->list (rib-label* rib)))))
|
|
|
|
(define (increment-rib-frequency! rib idx)
|
|
(let ((freq* (rib-sealed/freq rib)))
|
|
(let ((freq (vector-ref freq* idx)))
|
|
(let ((i
|
|
(let f ((i idx))
|
|
(cond
|
|
((zero? i) 0)
|
|
(else
|
|
(let ((j (- i 1)))
|
|
(cond
|
|
((= freq (vector-ref freq* j)) (f j))
|
|
(else i))))))))
|
|
(vector-set! freq* i (+ freq 1))
|
|
(unless (= i idx)
|
|
(let ((sym* (rib-sym* rib))
|
|
(mark** (rib-mark** rib))
|
|
(label* (rib-label* rib)))
|
|
(let ((sym (vector-ref sym* idx)))
|
|
(vector-set! sym* idx (vector-ref sym* i))
|
|
(vector-set! sym* i sym))
|
|
(let ((mark* (vector-ref mark** idx)))
|
|
(vector-set! mark** idx (vector-ref mark** i))
|
|
(vector-set! mark** i mark*))
|
|
(let ((label (vector-ref label* idx)))
|
|
(vector-set! label* idx (vector-ref label* i))
|
|
(vector-set! label* i label))))))))
|
|
|
|
(define make-full-rib ;;; it may be a good idea to seal this rib
|
|
(lambda (id* label*)
|
|
(make-rib (map id->sym id*) (map stx-mark* id*) label* #f)))
|
|
|
|
;;; Now to syntax objects which are records defined like:
|
|
(define-record stx (expr mark* subst* ae*)
|
|
(lambda (x p)
|
|
(display "#<syntax " p)
|
|
(write (stx->datum x) p)
|
|
(let ([expr (stx-expr x)])
|
|
(when (annotation? expr)
|
|
(let ([src (annotation-source expr)])
|
|
(when (pair? src)
|
|
(display " [char " p)
|
|
(display (cdr src) p)
|
|
(display " of " p)
|
|
(display (car src) p)
|
|
(display "]" p)))))
|
|
(display ">" p)))
|
|
|
|
;;; First, let's look at identifiers, since they're the real
|
|
;;; reason why syntax objects are here to begin with.
|
|
;;; An identifier is an stx whose expr is a symbol.
|
|
;;; In addition to the symbol naming the identifier, the identifer
|
|
;;; has a list of marks and a list of substitutions.
|
|
;;; The idea is that to get the label of an identifier, we look up
|
|
;;; the identifier's substitutions for a mapping with the same
|
|
;;; name and same marks (see same-marks? below).
|
|
|
|
;;; Since all the identifier->label bindings are encapsulated
|
|
;;; within the identifier, converting a datum to a syntax object
|
|
;;; (non-hygienically) is done simply by creating an stx that has
|
|
;;; the same marks and substitutions as the identifier.
|
|
(define datum->stx
|
|
(lambda (id datum)
|
|
(make-stx datum (stx-mark* id) (stx-subst* id) (stx-ae* id))))
|
|
|
|
;;; A syntax object may be wrapped or unwrapped, so what does that
|
|
;;; mean exactly?
|
|
;;;
|
|
;;; A wrapped syntax object is just a way of saying it's an stx
|
|
;;; record. All identifiers are stx records (with a symbol in
|
|
;;; their expr field). Other objects such as pairs and vectors
|
|
;;; may be wrapped or unwrapped. A wrapped pair is an stx whos
|
|
;;; expr is a pair. An unwrapped pair is a pair whos car and cdr
|
|
;;; fields are themselves syntax objects (wrapped or unwrapped).
|
|
;;;
|
|
;;; We always maintain the invariant that we don't double wrap
|
|
;;; syntax objects. The only way to get a doubly-wrapped syntax
|
|
;;; object is by doing datum->stx (above) where the datum is
|
|
;;; itself a wrapped syntax object (r6rs may not even consider
|
|
;;; wrapped syntax objects as datum, but let's not worry now).
|
|
|
|
;;; Syntax objects have, in addition to the expr, a
|
|
;;; substitution field (stx-subst*). The subst* is a list
|
|
;;; where each element is either a rib or the symbol "shift".
|
|
;;; Normally, a new rib is added to an stx at evert lexical
|
|
;;; contour of the program in order to capture the bindings
|
|
;;; inctroduced in that contour.
|
|
|
|
;;; The mark* field of an stx is, well, a list of marks.
|
|
;;; Each of these marks can be either a generated mark
|
|
;;; or an antimark.
|
|
;;; (two marks must be eq?-comparable, so we use a string
|
|
;;; of one char (this assumes that strings are mutable)).
|
|
|
|
;;; gen-mark generates a new unique mark
|
|
(define (gen-mark) ;;; faster
|
|
(string #\m))
|
|
|
|
;(define gen-mark ;;; useful for debugging
|
|
; (let ((i 0))
|
|
; (lambda ()
|
|
; (set! i (+ i 1))
|
|
; (string-append "m." (number->string i)))))
|
|
|
|
;;; We use #f as the anti-mark.
|
|
(define anti-mark #f)
|
|
(define anti-mark? not)
|
|
|
|
;;; So, what's an anti-mark and why is it there.
|
|
;;; The theory goes like this: when a macro call is encountered,
|
|
;;; the input stx to the macro transformer gets an extra anti-mark,
|
|
;;; and the output of the transformer gets a fresh mark.
|
|
;;; When a mark collides with an anti-mark, they cancel one
|
|
;;; another. Therefore, any part of the input transformer that
|
|
;;; gets copied to the output would have a mark followed
|
|
;;; immediately by an anti-mark, resulting in the same syntax
|
|
;;; object (no extra marks). Parts of the output that were not
|
|
;;; present in the input (e.g. inserted by the macro transformer)
|
|
;;; would have no anti-mark and, therefore, the mark would stick
|
|
;;; to them.
|
|
;;;
|
|
;;; Every time a mark is pushed to an stx-mark* list, a
|
|
;;; corresponding 'shift is pushed to the stx-subst* list.
|
|
;;; Every time a mark is cancelled by an anti-mark, the
|
|
;;; corresponding shifts are also cancelled.
|
|
|
|
;;; The procedure join-wraps, here, is used to compute the new
|
|
;;; mark* and subst* that would result when the m1* and s1* are
|
|
;;; added to an stx's mark* and subst*.
|
|
;;; The only tricky part here is that e may have an anti-mark
|
|
;;; that should cancel with the last mark in m1*.
|
|
;;; So, if m1* is (mx* ... mx)
|
|
;;; and m2* is (#f my* ...)
|
|
;;; then the resulting marks should be (mx* ... my* ...)
|
|
;;; since mx would cancel with the anti-mark.
|
|
;;; The substs would have to also cancel since
|
|
;;; s1* is (sx* ... sx)
|
|
;;; and s2* is (sy sy* ...)
|
|
;;; then the resulting substs should be (sx* ... sy* ...)
|
|
;;; Notice that both sx and sy would be shift marks.
|
|
(define join-wraps
|
|
(lambda (m1* s1* ae1* e)
|
|
(define cancel
|
|
(lambda (ls1 ls2)
|
|
(let f ((x (car ls1)) (ls1 (cdr ls1)))
|
|
(if (null? ls1)
|
|
(cdr ls2)
|
|
(cons x (f (car ls1) (cdr ls1)))))))
|
|
(let ((m2* (stx-mark* e))
|
|
(s2* (stx-subst* e))
|
|
(ae2* (stx-ae* e)))
|
|
(if (and (not (null? m1*))
|
|
(not (null? m2*))
|
|
(anti-mark? (car m2*)))
|
|
; cancel mark, anti-mark, and corresponding shifts
|
|
(values (cancel m1* m2*) (cancel s1* s2*) (cancel ae1* ae2*))
|
|
(values (append m1* m2*) (append s1* s2*) (append ae1* ae2*))))))
|
|
|
|
;;; The procedure mkstx is then the proper constructor for
|
|
;;; wrapped syntax objects. It takes a syntax object, a list
|
|
;;; of marks, and a list of substs. It joins the two wraps
|
|
;;; making sure that marks and anti-marks and corresponding
|
|
;;; shifts cancel properly.
|
|
(define mkstx ;;; QUEUE
|
|
(lambda (e m* s* ae*)
|
|
(if (stx? e)
|
|
(let-values (((m* s* ae*) (join-wraps m* s* ae* e)))
|
|
(make-stx (stx-expr e) m* s* ae*))
|
|
(make-stx e m* s* ae*))))
|
|
|
|
;;; to add a mark, we always add a corresponding shift.
|
|
(define add-mark
|
|
(lambda (m e ae)
|
|
(mkstx e (list m) '(shift) (list ae))))
|
|
|
|
(define add-subst
|
|
(lambda (subst e)
|
|
(mkstx e '() (list subst) '())))
|
|
|
|
;;; now are some deconstructors and predicates for syntax objects.
|
|
(define syntax-kind?
|
|
(lambda (x p?)
|
|
(cond
|
|
[(stx? x) (syntax-kind? (stx-expr x) p?)]
|
|
[(annotation? x)
|
|
(syntax-kind? (annotation-expression x) p?)]
|
|
[else (p? x)])))
|
|
|
|
(define syntax-vector->list
|
|
(lambda (x)
|
|
(cond
|
|
((stx? x)
|
|
(let ((ls (syntax-vector->list (stx-expr x)))
|
|
(m* (stx-mark* x))
|
|
(s* (stx-subst* x))
|
|
(ae* (stx-ae* x)))
|
|
(map (lambda (x) (mkstx x m* s* ae*)) ls)))
|
|
[(annotation? x)
|
|
(syntax-vector->list (annotation-expression x))]
|
|
((vector? x) (vector->list x))
|
|
(else (assertion-violation 'syntax-vector->list "BUG: not a syntax vector" x)))))
|
|
(define syntax-pair?
|
|
(lambda (x) (syntax-kind? x pair?)))
|
|
(define syntax-vector?
|
|
(lambda (x) (syntax-kind? x vector?)))
|
|
(define syntax-null?
|
|
(lambda (x) (syntax-kind? x null?)))
|
|
(define syntax-list? ;;; FIXME: should terminate on cyclic input.
|
|
(lambda (x)
|
|
(or (syntax-null? x)
|
|
(and (syntax-pair? x) (syntax-list? (syntax-cdr x))))))
|
|
(define syntax-car
|
|
(lambda (x)
|
|
(cond
|
|
[(stx? x)
|
|
(mkstx (syntax-car (stx-expr x))
|
|
(stx-mark* x)
|
|
(stx-subst* x)
|
|
(stx-ae* x))]
|
|
[(annotation? x)
|
|
(syntax-car (annotation-expression x))]
|
|
[(pair? x) (car x)]
|
|
[else (assertion-violation 'syntax-car "BUG: not a pair" x)])))
|
|
(define syntax-cdr
|
|
(lambda (x)
|
|
(cond
|
|
[(stx? x)
|
|
(mkstx (syntax-cdr (stx-expr x))
|
|
(stx-mark* x)
|
|
(stx-subst* x)
|
|
(stx-ae* x))]
|
|
[(annotation? x)
|
|
(syntax-cdr (annotation-expression x))]
|
|
[(pair? x) (cdr x)]
|
|
[else (assertion-violation 'syntax-cdr "BUG: not a pair" x)])))
|
|
(define syntax->list
|
|
(lambda (x)
|
|
(if (syntax-pair? x)
|
|
(cons (syntax-car x) (syntax->list (syntax-cdr x)))
|
|
(if (syntax-null? x)
|
|
'()
|
|
(assertion-violation 'syntax->list "BUG: invalid argument" x)))))
|
|
|
|
(define id?
|
|
(lambda (x)
|
|
(and (stx? x)
|
|
(let ([expr (stx-expr x)])
|
|
(symbol? (if (annotation? expr)
|
|
(annotation-stripped expr)
|
|
expr))))))
|
|
|
|
(define id->sym
|
|
(lambda (x)
|
|
(unless (stx? x)
|
|
(error 'id->sym "BUG in ikarus: not an id" x))
|
|
(let ([expr (stx-expr x)])
|
|
(let ([sym (if (annotation? expr)
|
|
(annotation-stripped expr)
|
|
expr)])
|
|
(if (symbol? sym)
|
|
sym
|
|
(error 'id->sym "BUG in ikarus: not an id" x))))))
|
|
|
|
;;; Two lists of marks are considered the same if they have the
|
|
;;; same length and the corresponding marks on each are eq?.
|
|
(define same-marks?
|
|
(lambda (x y)
|
|
(or (and (null? x) (null? y)) ;(eq? x y)
|
|
(and (pair? x) (pair? y)
|
|
(eq? (car x) (car y))
|
|
(same-marks? (cdr x) (cdr y))))))
|
|
|
|
;;; Two identifiers are bound-id=? if they have the same name and
|
|
;;; the same set of marks.
|
|
(define bound-id=?
|
|
(lambda (x y)
|
|
(and (eq? (id->sym x) (id->sym y))
|
|
(same-marks? (stx-mark* x) (stx-mark* y)))))
|
|
|
|
;;; Two identifiers are free-id=? if either both are bound to the
|
|
;;; same label or if both are unbound and they have the same name.
|
|
(define free-id=?
|
|
(lambda (i j)
|
|
(let ((t0 (id->real-label i)) (t1 (id->real-label j)))
|
|
(if (or t0 t1)
|
|
(eq? t0 t1)
|
|
(eq? (id->sym i) (id->sym j))))))
|
|
|
|
;;; valid-bound-ids? takes checks if a list is made of identifers
|
|
;;; none of which is bound-id=? to another.
|
|
(define valid-bound-ids?
|
|
(lambda (id*)
|
|
(and (for-all id? id*)
|
|
(distinct-bound-ids? id*))))
|
|
|
|
(define distinct-bound-ids?
|
|
(lambda (id*)
|
|
(or (null? id*)
|
|
(and (not (bound-id-member? (car id*) (cdr id*)))
|
|
(distinct-bound-ids? (cdr id*))))))
|
|
|
|
(define bound-id-member?
|
|
(lambda (id id*)
|
|
(and (pair? id*)
|
|
(or (bound-id=? id (car id*))
|
|
(bound-id-member? id (cdr id*))))))
|
|
|
|
(define self-evaluating?
|
|
(lambda (x) ;;; am I missing something here?
|
|
(or (number? x) (string? x) (char? x) (boolean? x)
|
|
(bytevector? x))))
|
|
|
|
;;; strip is used to remove the wrap of a syntax object.
|
|
;;; It takes an stx's expr and marks. If the marks contain
|
|
;;; a top-mark, then the expr is returned.
|
|
|
|
(define (strip-annotations x)
|
|
(cond
|
|
[(pair? x)
|
|
(cons (strip-annotations (car x))
|
|
(strip-annotations (cdr x)))]
|
|
[(vector? x) (vector-map strip-annotations x)]
|
|
[(annotation? x) (annotation-stripped x)]
|
|
[else x]))
|
|
|
|
(define strip
|
|
(lambda (x m*)
|
|
(if (top-marked? m*)
|
|
(if (or (annotation? x)
|
|
(and (pair? x)
|
|
(annotation? (car x)))
|
|
(and (vector? x) (> (vector-length x) 0)
|
|
(annotation? (vector-ref x 0))))
|
|
;;; TODO: Ask Kent why this is a sufficient test
|
|
(strip-annotations x)
|
|
x)
|
|
(let f ((x x))
|
|
(cond
|
|
((stx? x) (strip (stx-expr x) (stx-mark* x)))
|
|
[(annotation? x) (annotation-stripped x)]
|
|
((pair? x)
|
|
(let ((a (f (car x))) (d (f (cdr x))))
|
|
(if (and (eq? a (car x)) (eq? d (cdr x)))
|
|
x
|
|
(cons a d))))
|
|
((vector? x)
|
|
(let ((old (vector->list x)))
|
|
(let ((new (map f old)))
|
|
(if (for-all eq? old new)
|
|
x
|
|
(list->vector new)))))
|
|
(else x))))))
|
|
|
|
(define stx->datum
|
|
(lambda (x)
|
|
(strip x '())))
|
|
|
|
;;; id->label takes an id (that's a sym x marks x substs) and
|
|
;;; searches the substs for a label associated with the same sym
|
|
;;; and marks.
|
|
(define (id->label id)
|
|
(or (id->real-label id)
|
|
(cond
|
|
[(top-level-context) =>
|
|
(lambda (env)
|
|
;;; fabricate binding
|
|
(let ([rib (interaction-env-rib env)])
|
|
(let-values ([(lab loc_) (gen-define-label+loc id rib)])
|
|
(extend-rib! rib id lab)
|
|
lab)))]
|
|
[else #f])))
|
|
|
|
(define id->real-label
|
|
(lambda (id)
|
|
(let ((sym (id->sym id)))
|
|
(let search ((subst* (stx-subst* id)) (mark* (stx-mark* id)))
|
|
(cond
|
|
((null? subst*) #f)
|
|
((eq? (car subst*) 'shift)
|
|
;;; a shift is inserted when a mark is added.
|
|
;;; so, we search the rest of the substitution
|
|
;;; without the mark.
|
|
(search (cdr subst*) (cdr mark*)))
|
|
(else
|
|
(let ((rib (car subst*)))
|
|
(cond
|
|
((rib-sealed/freq rib)
|
|
(let ((sym* (rib-sym* rib)))
|
|
(let f ((i 0) (j (vector-length sym*)))
|
|
(cond
|
|
((= i j) (search (cdr subst*) mark*))
|
|
((and (eq? (vector-ref sym* i) sym)
|
|
(same-marks? mark*
|
|
(vector-ref (rib-mark** rib) i)))
|
|
(let ((label (vector-ref (rib-label* rib) i)))
|
|
(increment-rib-frequency! rib i)
|
|
label))
|
|
(else (f (+ i 1) j))))))
|
|
(else
|
|
(let f ((sym* (rib-sym* rib))
|
|
(mark** (rib-mark** rib))
|
|
(label* (rib-label* rib)))
|
|
(cond
|
|
((null? sym*) (search (cdr subst*) mark*))
|
|
((and (eq? (car sym*) sym)
|
|
(same-marks? (car mark**) mark*))
|
|
(car label*))
|
|
(else (f (cdr sym*) (cdr mark**) (cdr label*))))))))))))))
|
|
|
|
;;; label->binding looks up the label in the environment r as
|
|
;;; well as in the global environment. Since all labels are
|
|
;;; unique, it doesn't matter which environment we consult first.
|
|
;;; we lookup the global environment first because it's faster
|
|
;;; (uses a hash table) while the lexical environment is an alist.
|
|
;;; If we don't find the binding of a label, we return the binding
|
|
;;; (displaced-lexical . #f) to indicate such.
|
|
(define label->binding
|
|
(lambda (x r)
|
|
(cond
|
|
((imported-label->binding x) =>
|
|
(lambda (b)
|
|
(cond
|
|
[(and (pair? b) (eq? (car b) '$core-rtd))
|
|
(cons '$rtd (map bless (cdr b)))]
|
|
[(and (pair? b) (eq? (car b) 'global-rtd))
|
|
(let ([lib (cadr b)] [loc (cddr b)])
|
|
(cons '$rtd (symbol-value loc)))]
|
|
[else b])))
|
|
((assq x r) => cdr)
|
|
[(top-level-context) =>
|
|
(lambda (env)
|
|
(cond
|
|
[(assq x (interaction-env-locs env)) =>
|
|
(lambda (p) ;;; fabricate
|
|
(cons* 'lexical (cdr p) #f))]
|
|
[else '(displaced-lexical . #f)]))]
|
|
(else '(displaced-lexical . #f)))))
|
|
|
|
(define make-binding cons)
|
|
(define binding-type car)
|
|
(define binding-value cdr)
|
|
|
|
;;; the type of an expression is determined by two things:
|
|
;;; - the shape of the expression (identifier, pair, or datum)
|
|
;;; - the binding of the identifier (for id-stx) or the type of
|
|
;;; car of the pair.
|
|
(define (raise-unbound-error id)
|
|
(syntax-violation* #f "unbound identifier" id
|
|
(make-undefined-violation)))
|
|
(define syntax-type
|
|
(lambda (e r)
|
|
(cond
|
|
((id? e)
|
|
(let ((id e))
|
|
(let* ((label (id->label id))
|
|
(b (label->binding label r))
|
|
(type (binding-type b)))
|
|
(unless label ;;; fail early.
|
|
(raise-unbound-error id))
|
|
(case type
|
|
((lexical core-prim macro macro! global local-macro
|
|
local-macro! global-macro global-macro!
|
|
displaced-lexical syntax import $module $core-rtd
|
|
library mutable)
|
|
(values type (binding-value b) id))
|
|
(else (values 'other #f #f))))))
|
|
((syntax-pair? e)
|
|
(let ((id (syntax-car e)))
|
|
(if (id? id)
|
|
(let* ((label (id->label id))
|
|
(b (label->binding label r))
|
|
(type (binding-type b)))
|
|
(unless label ;;; fail early.
|
|
(raise-unbound-error id))
|
|
(case type
|
|
((define define-syntax core-macro begin macro
|
|
macro! local-macro local-macro! global-macro
|
|
global-macro! module library set! let-syntax
|
|
letrec-syntax import $core-rtd)
|
|
(values type (binding-value b) id))
|
|
(else
|
|
(values 'call #f #f))))
|
|
(values 'call #f #f))))
|
|
(else (let ((d (stx->datum e)))
|
|
(if (self-evaluating? d)
|
|
(values 'constant d #f)
|
|
(values 'other #f #f)))))))
|
|
|
|
(define-syntax stx-error
|
|
(lambda (x)
|
|
(syntax-case x ()
|
|
((_ stx)
|
|
(syntax (syntax-violation #f "invalid syntax" stx)))
|
|
((_ stx msg)
|
|
(syntax (syntax-violation #f msg stx))))))
|
|
|
|
;;; when the rhs of a syntax definition is evaluated, it should be
|
|
;;; either a procedure, an identifier-syntax transformer or an
|
|
;;; ($rtd . #<rtd>) form (ikarus/chez). sanitize-binding converts
|
|
;;; the output to one of:
|
|
;;; (lacal-macro . procedure)
|
|
;;; (local-macro! . procedure)
|
|
;;; ($rtd . $rtd)
|
|
;;; and signals an assertion-violation otherwise.
|
|
(define sanitize-binding
|
|
(lambda (x src)
|
|
(cond
|
|
((procedure? x)
|
|
(cons* 'local-macro x src))
|
|
((and (pair? x) (eq? (car x) 'macro!) (procedure? (cdr x)))
|
|
(cons* 'local-macro! (cdr x) src))
|
|
((and (pair? x) (eq? (car x) '$rtd)) x)
|
|
(else (assertion-violation 'expand "invalid transformer" x)))))
|
|
|
|
;;; r6rs's make-variable-transformer:
|
|
(define make-variable-transformer
|
|
(lambda (x)
|
|
(if (procedure? x)
|
|
(cons 'macro! x)
|
|
(assertion-violation 'make-variable-transformer
|
|
"not a procedure" x))))
|
|
|
|
;;; make-eval-transformer takes an expanded expression,
|
|
;;; evaluates it and returns a proper syntactic binding
|
|
;;; for the resulting object.
|
|
(define make-eval-transformer
|
|
(lambda (x)
|
|
(sanitize-binding (eval-core (expanded->core x)) x)))
|
|
|
|
;;; The syntax-match macro is almost like syntax-case macro.
|
|
;;; Except that:
|
|
;;; The syntax objects matched are OUR stx objects, not
|
|
;;; the host systems syntax objects (whatever they may be
|
|
;;; we don't care).
|
|
;;; The literals are matched against those in the system
|
|
;;; library (psyntax system $all). -- see scheme-stx
|
|
;;; The variables in the patters are bound to ordinary variables
|
|
;;; not to special pattern variables.
|
|
(define-syntax syntax-match
|
|
(lambda (ctx)
|
|
(define dots?
|
|
(lambda (x)
|
|
(and (sys.identifier? x)
|
|
(sys.free-identifier=? x (syntax (... ...))))))
|
|
(define free-identifier-member?
|
|
(lambda (x ls)
|
|
(and (exists (lambda (y) (sys.free-identifier=? x y)) ls) #t)))
|
|
(define (parse-clause lits cls)
|
|
(define (parse-pat pat)
|
|
(syntax-case pat ()
|
|
(id (sys.identifier? (syntax id))
|
|
(cond
|
|
((free-identifier-member? (syntax id) lits)
|
|
(values '()
|
|
(syntax
|
|
(lambda (x)
|
|
(and (id? x)
|
|
(free-id=? x (scheme-stx 'id))
|
|
'())))))
|
|
((sys.free-identifier=? (syntax id) (syntax _))
|
|
(values '() (syntax (lambda (x) '()))))
|
|
(else
|
|
(values (list (syntax id)) (syntax (lambda (x) (list x)))))))
|
|
((pat dots) (dots? (syntax dots))
|
|
(let-values (((pvars decon) (parse-pat (syntax pat))))
|
|
(with-syntax (((v* ...) pvars) (decon decon))
|
|
(values pvars
|
|
(syntax (letrec ((f (lambda (x)
|
|
(cond
|
|
((syntax-pair? x)
|
|
(let ((cars/f (decon (syntax-car x))))
|
|
(and cars/f
|
|
(let ((cdrs/f (f (syntax-cdr x))))
|
|
(and cdrs/f
|
|
(map cons cars/f cdrs/f))))))
|
|
((syntax-null? x)
|
|
(list (begin 'v* '()) ...))
|
|
(else #f)))))
|
|
f))))))
|
|
((pat dots . last) (dots? (syntax dots))
|
|
(let-values (((p1 d1) (parse-pat (syntax pat)))
|
|
((p2 d2) (parse-pat (syntax last))))
|
|
(with-syntax (((v* ...) (append p1 p2))
|
|
((v1* ...) p1)
|
|
((v2* ...) p2)
|
|
(d1 d1) (d2 d2))
|
|
(values (append p1 p2)
|
|
(syntax (letrec ((f (lambda (x)
|
|
(cond
|
|
((syntax-pair? x)
|
|
(let ((cars/f (d1 (syntax-car x))))
|
|
(and cars/f
|
|
(let ((d/f (f (syntax-cdr x))))
|
|
(and d/f
|
|
(cons (map cons cars/f (car d/f))
|
|
(cdr d/f)))))))
|
|
(else
|
|
(let ((d (d2 x)))
|
|
(and d
|
|
(cons (list (begin 'v1* '()) ...)
|
|
d))))))))
|
|
(lambda (x)
|
|
(let ((x (f x)))
|
|
(and x (append (car x) (cdr x)))))))))))
|
|
((pat1 . pat2)
|
|
(let-values (((p1 d1) (parse-pat (syntax pat1)))
|
|
((p2 d2) (parse-pat (syntax pat2))))
|
|
(with-syntax ((d1 d1) (d2 d2))
|
|
(values (append p1 p2)
|
|
(syntax (lambda (x)
|
|
(and (syntax-pair? x)
|
|
(let ((q (d1 (syntax-car x))))
|
|
(and q
|
|
(let ((r (d2 (syntax-cdr x))))
|
|
(and r (append q r))))))))))))
|
|
(#(pats ...)
|
|
(let-values (((pvars d) (parse-pat (syntax (pats ...)))))
|
|
(with-syntax ((d d))
|
|
(values pvars
|
|
(syntax (lambda (x)
|
|
(and (syntax-vector? x)
|
|
(d (syntax-vector->list x)))))))))
|
|
(datum
|
|
(values '()
|
|
(syntax (lambda (x)
|
|
(and (equal? (stx->datum x) 'datum) '())))))))
|
|
(syntax-case cls ()
|
|
((pat body)
|
|
(let-values (((pvars decon) (parse-pat (syntax pat))))
|
|
(with-syntax (((v* ...) pvars))
|
|
(values decon
|
|
(syntax (lambda (v* ...) #t))
|
|
(syntax (lambda (v* ...) body))))))
|
|
((pat guard body)
|
|
(let-values (((pvars decon) (parse-pat (syntax pat))))
|
|
(with-syntax (((v* ...) pvars))
|
|
(values decon
|
|
(syntax (lambda (v* ...) guard))
|
|
(syntax (lambda (v* ...) body))))))))
|
|
(syntax-case ctx ()
|
|
((_ expr (lits ...)) (for-all sys.identifier? (syntax (lits ...)))
|
|
(syntax (stx-error expr "invalid syntax")))
|
|
((_ expr (lits ...) cls cls* ...) (for-all sys.identifier?
|
|
(syntax (lits ...)))
|
|
(let-values (((decon guard body)
|
|
(parse-clause (syntax (lits ...)) (syntax cls))))
|
|
(with-syntax ((decon decon) (guard guard) (body body))
|
|
(syntax (let ((t expr))
|
|
(let ((ls/false (decon t)))
|
|
(if (and ls/false (apply guard ls/false))
|
|
(apply body ls/false)
|
|
(syntax-match t (lits ...) cls* ...)))))))))))
|
|
|
|
|
|
(define parse-define
|
|
(lambda (x)
|
|
(syntax-match x ()
|
|
((_ (id . fmls) b b* ...) (id? id)
|
|
(begin
|
|
(verify-formals fmls x)
|
|
(values id (cons 'defun (cons fmls (cons b b*))))))
|
|
((_ id val) (id? id)
|
|
(values id (cons 'expr val)))
|
|
((_ id) (id? id)
|
|
(values id (cons 'expr (bless '(void))))))))
|
|
|
|
(define parse-define-syntax
|
|
(lambda (x)
|
|
(syntax-match x ()
|
|
((_ id val) (id? id) (values id val)))))
|
|
|
|
;;; scheme-stx takes a symbol and if it's in the
|
|
;;; (psyntax system $all) library, it creates a fresh identifier
|
|
;;; that maps only the symbol to its label in that library.
|
|
;;; Symbols not in that library become fresh.
|
|
(define scheme-stx-hashtable (make-eq-hashtable))
|
|
(define scheme-stx
|
|
(lambda (sym)
|
|
(or (hashtable-ref scheme-stx-hashtable sym #f)
|
|
(let* ((subst
|
|
(library-subst
|
|
(find-library-by-name '(psyntax system $all))))
|
|
(stx (mkstx sym top-mark* '() '()))
|
|
(stx
|
|
(cond
|
|
((assq sym subst) =>
|
|
(lambda (x)
|
|
(let ((name (car x)) (label (cdr x)))
|
|
(add-subst
|
|
(make-rib (list name)
|
|
(list top-mark*) (list label) #f)
|
|
stx))))
|
|
(else stx))))
|
|
(hashtable-set! scheme-stx-hashtable sym stx)
|
|
stx))))
|
|
|
|
;;; macros
|
|
(define lexical-var car)
|
|
(define lexical-mutable? cdr)
|
|
(define set-lexical-mutable! set-cdr!)
|
|
(define add-lexical
|
|
(lambda (lab lex r)
|
|
(cons (cons* lab 'lexical lex #f) r)))
|
|
;;;
|
|
(define add-lexicals
|
|
(lambda (lab* lex* r)
|
|
(cond
|
|
((null? lab*) r)
|
|
(else
|
|
(add-lexicals (cdr lab*) (cdr lex*)
|
|
(add-lexical (car lab*) (car lex*) r))))))
|
|
;;;
|
|
(define letrec-helper
|
|
(lambda (e r mr build)
|
|
(syntax-match e ()
|
|
((_ ((lhs* rhs*) ...) b b* ...)
|
|
(if (not (valid-bound-ids? lhs*))
|
|
(invalid-fmls-error e lhs*)
|
|
(let ((lex* (map gen-lexical lhs*))
|
|
(lab* (map gen-label lhs*)))
|
|
(let ((rib (make-full-rib lhs* lab*))
|
|
(r (add-lexicals lab* lex* r)))
|
|
(let ((body (chi-internal
|
|
(add-subst rib (cons b b*)) r mr))
|
|
(rhs* (chi-expr* (map (lambda (x) (add-subst rib x))
|
|
rhs*) r mr)))
|
|
(build no-source lex* rhs* body)))))))))
|
|
|
|
(define letrec-transformer
|
|
(lambda (e r mr) (letrec-helper e r mr build-letrec)))
|
|
|
|
(define letrec*-transformer
|
|
(lambda (e r mr) (letrec-helper e r mr build-letrec*)))
|
|
|
|
(define fluid-let-syntax-transformer
|
|
(lambda (e r mr)
|
|
(define (lookup x)
|
|
(or (id->label x)
|
|
(syntax-violation #f "unbound identifier" e x)))
|
|
(syntax-match e ()
|
|
((_ ((lhs* rhs*) ...) b b* ...)
|
|
(if (not (valid-bound-ids? lhs*))
|
|
(invalid-fmls-error e lhs*)
|
|
(let ([lab* (map lookup lhs*)]
|
|
[rhs* (map (lambda (x)
|
|
(make-eval-transformer
|
|
(expand-transformer x mr)))
|
|
rhs*)])
|
|
(chi-internal (cons b b*)
|
|
(append (map cons lab* rhs*) r)
|
|
(append (map cons lab* rhs*) mr))))))))
|
|
|
|
(define type-descriptor-transformer
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ id) (id? id)
|
|
(let* ((lab (id->label id))
|
|
(b (label->binding lab r))
|
|
(type (binding-type b)))
|
|
(unless lab (raise-unbound-error id))
|
|
(unless (and (eq? type '$rtd) (not (list? (binding-value b))))
|
|
(stx-error e "not a record type"))
|
|
(build-data no-source (binding-value b)))))))
|
|
|
|
(define record-type-descriptor-transformer
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ id) (id? id)
|
|
(let* ((lab (id->label id))
|
|
(b (label->binding lab r))
|
|
(type (binding-type b)))
|
|
(unless lab (raise-unbound-error id))
|
|
(unless (and (eq? type '$rtd) (list? (binding-value b)))
|
|
(stx-error e "not a record type"))
|
|
(chi-expr (car (binding-value b)) r mr))))))
|
|
|
|
(define record-constructor-descriptor-transformer
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ id) (id? id)
|
|
(let* ((lab (id->label id))
|
|
(b (label->binding lab r))
|
|
(type (binding-type b)))
|
|
(unless lab (raise-unbound-error id))
|
|
(unless (and (eq? type '$rtd) (list? (binding-value b)))
|
|
(stx-error e "invalid type"))
|
|
(chi-expr (cadr (binding-value b)) r mr))))))
|
|
|
|
(define when-transformer ;;; go away
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ test e e* ...)
|
|
(build-conditional no-source
|
|
(chi-expr test r mr)
|
|
(build-sequence no-source
|
|
(chi-expr* (cons e e*) r mr))
|
|
(build-void))))))
|
|
|
|
(define unless-transformer ;;; go away
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ test e e* ...)
|
|
(build-conditional no-source
|
|
(chi-expr test r mr)
|
|
(build-void)
|
|
(build-sequence no-source
|
|
(chi-expr* (cons e e*) r mr)))))))
|
|
|
|
(define if-transformer
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ e0 e1 e2)
|
|
(build-conditional no-source
|
|
(chi-expr e0 r mr)
|
|
(chi-expr e1 r mr)
|
|
(chi-expr e2 r mr)))
|
|
((_ e0 e1)
|
|
(build-conditional no-source
|
|
(chi-expr e0 r mr)
|
|
(chi-expr e1 r mr)
|
|
(build-void))))))
|
|
|
|
(define case-transformer ;;; go away
|
|
(lambda (e r mr)
|
|
(define build-one
|
|
(lambda (t cls rest)
|
|
(syntax-match cls ()
|
|
(((d* ...) e e* ...)
|
|
(build-conditional no-source
|
|
(build-application no-source
|
|
(build-primref no-source 'memv)
|
|
(list t (build-data no-source (stx->datum d*))))
|
|
(build-sequence no-source
|
|
(chi-expr* (cons e e*) r mr))
|
|
rest))
|
|
(else (stx-error e)))))
|
|
(define build-last
|
|
(lambda (t cls)
|
|
(syntax-match cls ()
|
|
(((d* ...) e e* ...)
|
|
(build-one t cls (build-void)))
|
|
((else-kwd x x* ...)
|
|
(if (and (id? else-kwd)
|
|
(free-id=? else-kwd (scheme-stx 'else)))
|
|
(build-sequence no-source
|
|
(chi-expr* (cons x x*) r mr))
|
|
(stx-error e)))
|
|
(else (stx-error e)))))
|
|
(syntax-match e ()
|
|
((_ expr)
|
|
(build-sequence no-source
|
|
(list (chi-expr expr r mr) (build-void))))
|
|
((_ expr cls cls* ...)
|
|
(let ((t (gen-lexical 't)))
|
|
(build-let no-source
|
|
(list t) (list (chi-expr expr r mr))
|
|
(let f ((cls cls) (cls* cls*))
|
|
(cond
|
|
((null? cls*) (build-last t cls))
|
|
(else
|
|
(build-one t cls
|
|
(f (car cls*) (cdr cls*))))))))))))
|
|
|
|
(define quote-transformer
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ datum) (build-data no-source (stx->datum datum))))))
|
|
|
|
(define case-lambda-transformer
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ (fmls* b* b** ...) ...)
|
|
(let-values (((fmls* body*)
|
|
(chi-lambda-clause* e fmls*
|
|
(map cons b* b**) r mr)))
|
|
(build-case-lambda no-source fmls* body*))))))
|
|
|
|
(define lambda-transformer
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ fmls b b* ...)
|
|
(let-values (((fmls body)
|
|
(chi-lambda-clause e fmls
|
|
(cons b b*) r mr)))
|
|
(build-lambda no-source fmls body))))))
|
|
|
|
(define bless
|
|
(lambda (x)
|
|
(mkstx
|
|
(let f ((x x))
|
|
(cond
|
|
((stx? x) x)
|
|
((pair? x) (cons (f (car x)) (f (cdr x))))
|
|
((symbol? x) (scheme-stx x))
|
|
((vector? x)
|
|
(list->vector (map f (vector->list x))))
|
|
(else x)))
|
|
'() '() '())))
|
|
|
|
(define with-syntax-macro
|
|
(lambda (e)
|
|
(syntax-match e ()
|
|
((_ ((pat* expr*) ...) b b* ...)
|
|
(let ([idn*
|
|
(let f ([pat* pat*])
|
|
(cond
|
|
[(null? pat*) '()]
|
|
[else
|
|
(let-values ([(pat idn*) (convert-pattern (car pat*) '())])
|
|
(append idn* (f (cdr pat*))))]))])
|
|
(verify-formals (map car idn*) e)
|
|
(let ([t* (generate-temporaries expr*)])
|
|
(bless
|
|
`(let ,(map list t* expr*)
|
|
,(let f ([pat* pat*] [t* t*])
|
|
(cond
|
|
[(null? pat*) `(begin #f ,b . ,b*)]
|
|
[else
|
|
`(syntax-case ,(car t*) ()
|
|
[,(car pat*) ,(f (cdr pat*) (cdr t*))]
|
|
[_ (assertion-violation 'with-syntax
|
|
"pattern does not match value"
|
|
',(car pat*)
|
|
,(car t*))])]))))))))))
|
|
|
|
(define (invalid-fmls-error stx fmls)
|
|
(syntax-match fmls ()
|
|
[(id* ... . last)
|
|
(let f ([id* (cond
|
|
[(id? last) (cons last id*)]
|
|
[(syntax-null? last) id*]
|
|
[else
|
|
(syntax-violation #f "not an identifier" stx last)])])
|
|
(cond
|
|
[(null? id*) (values)]
|
|
[(not (id? (car id*)))
|
|
(syntax-violation #f "not an identifier" stx (car id*))]
|
|
[else
|
|
(f (cdr id*))
|
|
(when (bound-id-member? (car id*) (cdr id*))
|
|
(syntax-violation #f "duplicate binding" stx (car id*)))]))]
|
|
[_ (syntax-violation #f "malformed binding form" stx fmls)]))
|
|
|
|
(define let-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_ ((lhs* rhs*) ...) b b* ...)
|
|
(if (valid-bound-ids? lhs*)
|
|
(bless `((lambda ,lhs* ,b . ,b*) . ,rhs*))
|
|
(invalid-fmls-error stx lhs*)))
|
|
((_ f ((lhs* rhs*) ...) b b* ...) (id? f)
|
|
(if (valid-bound-ids? lhs*)
|
|
(bless `((letrec ((,f (lambda ,lhs* ,b . ,b*))) ,f) . ,rhs*))
|
|
(invalid-fmls-error stx lhs*))))))
|
|
|
|
(define let-values-macro
|
|
(lambda (stx)
|
|
(define (rename x old* new*)
|
|
(unless (id? x)
|
|
(syntax-violation #f "not an indentifier" stx x))
|
|
(when (bound-id-member? x old*)
|
|
(syntax-violation #f "duplicate binding" stx x))
|
|
(let ([y (gensym (syntax->datum x))])
|
|
(values y (cons x old*) (cons y new*))))
|
|
(define (rename* x* old* new*)
|
|
(cond
|
|
[(null? x*) (values '() old* new*)]
|
|
[else
|
|
(let*-values ([(x old* new*) (rename (car x*) old* new*)]
|
|
[(x* old* new*) (rename* (cdr x*) old* new*)])
|
|
(values (cons x x*) old* new*))]))
|
|
(syntax-match stx ()
|
|
((_ () b b* ...)
|
|
(cons* (bless 'let) '() b b*))
|
|
((_ ((lhs* rhs*) ...) b b* ...)
|
|
(bless
|
|
(let f ([lhs* lhs*] [rhs* rhs*] [old* '()] [new* '()])
|
|
(cond
|
|
[(null? lhs*)
|
|
`(let ,(map list old* new*) ,b . ,b*)]
|
|
[else
|
|
(syntax-match (car lhs*) ()
|
|
[(x* ...)
|
|
(let-values ([(y* old* new*) (rename* x* old* new*)])
|
|
`(call-with-values
|
|
(lambda () ,(car rhs*))
|
|
(lambda ,y*
|
|
,(f (cdr lhs*) (cdr rhs*) old* new*))))]
|
|
[(x* ... . x)
|
|
(let*-values ([(y old* new*) (rename x old* new*)]
|
|
[(y* old* new*) (rename* x* old* new*)])
|
|
`(call-with-values
|
|
(lambda () ,(car rhs*))
|
|
(lambda ,(append y* y)
|
|
,(f (cdr lhs*) (cdr rhs*)
|
|
old* new*))))]
|
|
[others
|
|
(syntax-violation #f "malformed bindings"
|
|
stx others)])])))))))
|
|
|
|
(define let*-values-macro
|
|
(lambda (stx)
|
|
(define (check x*)
|
|
(unless (null? x*)
|
|
(let ([x (car x*)])
|
|
(unless (id? x)
|
|
(syntax-violation #f "not an identifier" stx x))
|
|
(check (cdr x*))
|
|
(when (bound-id-member? x (cdr x*))
|
|
(syntax-violation #f "duplicate identifier" stx x)))))
|
|
(syntax-match stx ()
|
|
((_ () b b* ...)
|
|
(cons* (bless 'let) '() b b*))
|
|
((_ ((lhs* rhs*) ...) b b* ...)
|
|
(bless
|
|
(let f ([lhs* lhs*] [rhs* rhs*])
|
|
(cond
|
|
[(null? lhs*)
|
|
`(begin ,b . ,b*)]
|
|
[else
|
|
(syntax-match (car lhs*) ()
|
|
[(x* ...)
|
|
(begin
|
|
(check x*)
|
|
`(call-with-values
|
|
(lambda () ,(car rhs*))
|
|
(lambda ,x*
|
|
,(f (cdr lhs*) (cdr rhs*)))))]
|
|
[(x* ... . x)
|
|
(begin
|
|
(check (cons x x*))
|
|
`(call-with-values
|
|
(lambda () ,(car rhs*))
|
|
(lambda ,(append x* x)
|
|
,(f (cdr lhs*) (cdr rhs*)))))]
|
|
[others
|
|
(syntax-violation #f "malformed bindings"
|
|
stx others)])])))))))
|
|
|
|
(define trace-lambda-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_ who (fmls ...) b b* ...)
|
|
(if (valid-bound-ids? fmls)
|
|
(bless `(make-traced-procedure ',who
|
|
(lambda ,fmls ,b . ,b*)))
|
|
(invalid-fmls-error stx fmls)))
|
|
((_ who (fmls ... . last) b b* ...)
|
|
(if (valid-bound-ids? (cons last fmls))
|
|
(bless `(make-traced-procedure ',who
|
|
(lambda (,@fmls . ,last) ,b . ,b*)))
|
|
(invalid-fmls-error stx (append fmls last)))))))
|
|
|
|
(define trace-define-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_ (who fmls ...) b b* ...)
|
|
(if (valid-bound-ids? fmls)
|
|
(bless `(define ,who
|
|
(make-traced-procedure ',who
|
|
(lambda ,fmls ,b . ,b*))))
|
|
(invalid-fmls-error stx fmls)))
|
|
((_ (who fmls ... . last) b b* ...)
|
|
(if (valid-bound-ids? (cons last fmls))
|
|
(bless `(define ,who
|
|
(make-traced-procedure ',who
|
|
(lambda (,@fmls . ,last) ,b . ,b*))))
|
|
(invalid-fmls-error stx (append fmls last))))
|
|
((_ who expr)
|
|
(if (id? who)
|
|
(bless `(define ,who
|
|
(let ((v ,expr))
|
|
(if (procedure? v)
|
|
(make-traced-procedure ',who v)
|
|
(assertion-violation 'trace-define
|
|
"not a procedure" v)))))
|
|
(stx-error stx "invalid name"))))))
|
|
|
|
(define trace-define-syntax-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_ who expr)
|
|
(if (id? who)
|
|
(bless `(define-syntax ,who
|
|
(let ((v ,expr))
|
|
(if (procedure? v)
|
|
(make-traced-procedure ',who v syntax->datum)
|
|
(assertion-violation 'trace-define-syntax
|
|
"not a procedure" v)))))
|
|
(stx-error stx "invalid name"))))))
|
|
|
|
(define guard-macro
|
|
(lambda (x)
|
|
(define (gen-clauses con outerk clause*)
|
|
(define (f x k)
|
|
(syntax-match x (=>)
|
|
[(e => p)
|
|
(let ([t (gensym)])
|
|
`(let ([,t ,e])
|
|
(if ,t (,p ,t) ,k)))]
|
|
[(e)
|
|
(let ([t (gensym)])
|
|
`(let ([,t ,e])
|
|
(if ,t ,t ,k)))]
|
|
[(e v v* ...)
|
|
`(if ,e (begin ,v ,@v*) ,k)]
|
|
[_ (stx-error x "invalid guard clause")]))
|
|
(define (f* x*)
|
|
(syntax-match x* (else)
|
|
[()
|
|
(let ([g (gensym)])
|
|
(values `(,g (lambda () (raise ,con))) g))]
|
|
[([else e e* ...])
|
|
(values `(begin ,e ,@e*) #f)]
|
|
[(cls . cls*)
|
|
(let-values ([(e g) (f* cls*)])
|
|
(values (f cls e) g))]
|
|
[others (stx-error others "invalid guard clause")]))
|
|
(let-values ([(code raisek) (f* clause*)])
|
|
(if raisek
|
|
`((call/cc
|
|
(lambda (,raisek)
|
|
(,outerk
|
|
(lambda () ,code)))))
|
|
`(,outerk (lambda () ,code)))))
|
|
(syntax-match x ()
|
|
[(_ (con clause* ...) b b* ...)
|
|
(id? con)
|
|
(let ([outerk (gensym)])
|
|
(bless
|
|
`((call/cc
|
|
(lambda (,outerk)
|
|
(lambda ()
|
|
(with-exception-handler
|
|
(lambda (,con)
|
|
,(gen-clauses con outerk clause*))
|
|
(lambda () #f ,b ,@b*))))))))])))
|
|
|
|
(define define-enumeration-macro
|
|
(lambda (stx)
|
|
(define (set? x)
|
|
(or (null? x)
|
|
(and (not (memq (car x) (cdr x)))
|
|
(set? (cdr x)))))
|
|
(define (remove-dups ls)
|
|
(cond
|
|
[(null? ls) '()]
|
|
[else
|
|
(cons (car ls)
|
|
(remove-dups (remq (car ls) (cdr ls))))]))
|
|
(syntax-match stx ()
|
|
[(_ name (id* ...) maker)
|
|
(and (id? name) (id? maker) (for-all id? id*))
|
|
(let ([name* (remove-dups (syntax->datum id*))] [mk (gensym)])
|
|
(bless
|
|
`(begin
|
|
;;; can be constructed at compile time
|
|
;;; but .... it's not worth it.
|
|
;;; also, generativity of defined enum types
|
|
;;; is completely unspecified, making them just
|
|
;;; more useless than they really are.
|
|
;;; eventually, I'll make them all compile-time
|
|
;;; generative just to piss some known people off.
|
|
(define ,mk
|
|
(enum-set-constructor
|
|
(make-enumeration ',name*)))
|
|
(define-syntax ,name
|
|
(lambda (x)
|
|
(syntax-case x ()
|
|
[(_ n)
|
|
(identifier? #'n)
|
|
(if (memq (syntax->datum #'n) ',name*)
|
|
#''n
|
|
(syntax-violation ',name
|
|
"not a member of set"
|
|
x #'n))])))
|
|
(define-syntax ,maker
|
|
(lambda (x)
|
|
(syntax-case x ()
|
|
[(_ n* ...)
|
|
(begin
|
|
(for-each
|
|
(lambda (n)
|
|
(unless (identifier? n)
|
|
(syntax-violation
|
|
',maker
|
|
"non-identifier argument"
|
|
x
|
|
n))
|
|
(unless (memq (syntax->datum n) ',name*)
|
|
(syntax-violation
|
|
',maker
|
|
"not a member of set"
|
|
x
|
|
n)))
|
|
#'(n* ...))
|
|
#'(,mk '(n* ...)))]))))))])))
|
|
|
|
(define time-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_ expr)
|
|
(let ([str
|
|
(let-values ([(p e) (open-string-output-port)])
|
|
(write (syntax->datum expr) p)
|
|
(e))])
|
|
(bless `(time-it ,str (lambda () ,expr))))))))
|
|
|
|
(define delay-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_ expr)
|
|
(bless `(make-promise (lambda () ,expr)))))))
|
|
|
|
(define assert-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_ expr)
|
|
(bless `(unless ,expr
|
|
(assertion-violation 'assert "assertion failed" ',expr)))))))
|
|
|
|
(define endianness-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_ e)
|
|
(case (syntax->datum e)
|
|
((little) (bless `'little))
|
|
((big) (bless `'big))
|
|
(else (stx-error stx "endianness must be big or little")))))))
|
|
|
|
(define identifier-syntax-macro
|
|
(lambda (stx)
|
|
(syntax-match stx (set!)
|
|
((_ expr)
|
|
(bless `(lambda (x)
|
|
(syntax-case x ()
|
|
(id (identifier? (syntax id)) (syntax ,expr))
|
|
((id e* ...) (identifier? (syntax id))
|
|
(cons (syntax ,expr) (syntax (e* ...))))))))
|
|
((_ (id1 expr1) ((set! id2 expr2) expr3))
|
|
(and (id? id1) (id? id2) (id? expr2))
|
|
(bless `(cons 'macro!
|
|
(lambda (x)
|
|
(syntax-case x (set!)
|
|
(id (identifier? (syntax id)) (syntax ,expr1))
|
|
((set! id ,expr2) (syntax ,expr3))
|
|
((id e* ...) (identifier? (syntax id)) (syntax (,expr1 e* ...)))))))))))
|
|
|
|
(define do-macro
|
|
(lambda (stx)
|
|
(define bind
|
|
(lambda (x)
|
|
(syntax-match x ()
|
|
((x init) `(,x ,init ,x))
|
|
((x init step) `(,x ,init ,step))
|
|
(_ (stx-error stx "invalid binding")))))
|
|
(syntax-match stx ()
|
|
((_ (binding* ...)
|
|
(test expr* ...)
|
|
command* ...)
|
|
(syntax-match (map bind binding*) ()
|
|
(((x* init* step*) ...)
|
|
(if (valid-bound-ids? x*)
|
|
(bless
|
|
`(letrec ((loop
|
|
(lambda ,x*
|
|
(if ,test
|
|
(begin (if #f #f) ,@expr*)
|
|
(begin
|
|
,@command*
|
|
(loop ,@step*))))))
|
|
(loop ,@init*)))
|
|
(stx-error stx "invalid bindings"))))))))
|
|
|
|
(define let*-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_ ((lhs* rhs*) ...) b b* ...) (for-all id? lhs*)
|
|
(bless
|
|
(let f ((x* (map list lhs* rhs*)))
|
|
(cond
|
|
((null? x*) `(let () ,b . ,b*))
|
|
(else `(let (,(car x*)) ,(f (cdr x*)))))))))))
|
|
|
|
(define or-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_) #f)
|
|
((_ e e* ...)
|
|
(bless
|
|
(let f ((e e) (e* e*))
|
|
(cond
|
|
((null? e*) `(begin #f ,e))
|
|
(else
|
|
`(let ((t ,e))
|
|
(if t t ,(f (car e*) (cdr e*))))))))))))
|
|
|
|
(define and-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_) #t)
|
|
((_ e e* ...)
|
|
(bless
|
|
(let f ((e e) (e* e*))
|
|
(cond
|
|
((null? e*) `(begin #f ,e))
|
|
(else `(if ,e ,(f (car e*) (cdr e*)) #f)))))))))
|
|
|
|
(define cond-macro
|
|
(lambda (stx)
|
|
(syntax-match stx ()
|
|
((_ cls cls* ...)
|
|
(bless
|
|
(let f ((cls cls) (cls* cls*))
|
|
(cond
|
|
((null? cls*)
|
|
(syntax-match cls (else =>)
|
|
((else e e* ...) `(begin ,e . ,e*))
|
|
((e => p) `(let ((t ,e)) (if t (,p t))))
|
|
((e) `(or ,e (if #f #f)))
|
|
((e e* ...) `(if ,e (begin . ,e*)))
|
|
(_ (stx-error stx "invalid last clause"))))
|
|
(else
|
|
(syntax-match cls (else =>)
|
|
((else e e* ...) (stx-error stx "incorrect position of keyword else"))
|
|
((e => p) `(let ((t ,e)) (if t (,p t) ,(f (car cls*) (cdr cls*)))))
|
|
((e) `(or ,e ,(f (car cls*) (cdr cls*))))
|
|
((e e* ...) `(if ,e (begin . ,e*) ,(f (car cls*) (cdr cls*))))
|
|
(_ (stx-error stx "invalid last clause")))))))))))
|
|
|
|
(begin ; module (include-macro include-into-macro)
|
|
; no module to keep portable!
|
|
; dump everything in top-level, sure.
|
|
(define (do-include stx id filename)
|
|
(let ((filename (stx->datum filename)))
|
|
(unless (and (string? filename) (id? id))
|
|
(stx-error stx))
|
|
(cons
|
|
(bless 'begin)
|
|
(with-input-from-file filename
|
|
(lambda ()
|
|
(let f ((ls '()))
|
|
(let ((x (read-annotated)))
|
|
(cond
|
|
((eof-object? x) (reverse ls))
|
|
(else
|
|
(f (cons (datum->stx id x) ls)))))))))))
|
|
(define include-macro
|
|
(lambda (e)
|
|
(syntax-match e ()
|
|
((id filename)
|
|
(do-include e id filename)))))
|
|
(define include-into-macro
|
|
(lambda (e)
|
|
(syntax-match e ()
|
|
((_ id filename)
|
|
(do-include e id filename))))))
|
|
|
|
|
|
(define syntax-rules-macro
|
|
(lambda (e)
|
|
(syntax-match e ()
|
|
((_ (lits ...)
|
|
(pat* tmp*) ...)
|
|
(begin
|
|
(verify-literals lits e)
|
|
(bless `(lambda (x)
|
|
(syntax-case x ,lits
|
|
,@(map (lambda (pat tmp)
|
|
(syntax-match pat ()
|
|
[(_ . rest)
|
|
`((g . ,rest) (syntax ,tmp))]
|
|
[_
|
|
(syntax-violation #f
|
|
"invalid syntax-rules pattern"
|
|
e pat)]))
|
|
pat* tmp*)))))))))
|
|
|
|
(define quasiquote-macro
|
|
(let ()
|
|
(define (datum x)
|
|
(list (scheme-stx 'quote) (mkstx x '() '() '())))
|
|
(define-syntax app
|
|
(syntax-rules (quote)
|
|
((_ 'x arg* ...)
|
|
(list (scheme-stx 'x) arg* ...))))
|
|
(define-syntax app*
|
|
(syntax-rules (quote)
|
|
((_ 'x arg* ... last)
|
|
(cons* (scheme-stx 'x) arg* ... last))))
|
|
(define quasicons*
|
|
(lambda (x y)
|
|
(let f ((x x))
|
|
(if (null? x) y (quasicons (car x) (f (cdr x)))))))
|
|
(define quasicons
|
|
(lambda (x y)
|
|
(syntax-match y (quote list)
|
|
((quote dy)
|
|
(syntax-match x (quote)
|
|
((quote dx) (app 'quote (cons dx dy)))
|
|
(_
|
|
(syntax-match dy ()
|
|
(() (app 'list x))
|
|
(_ (app 'cons x y))))))
|
|
((list stuff ...)
|
|
(app* 'list x stuff))
|
|
(_ (app 'cons x y)))))
|
|
(define quasiappend
|
|
(lambda (x y)
|
|
(let ((ls (let f ((x x))
|
|
(if (null? x)
|
|
(syntax-match y (quote)
|
|
((quote ()) '())
|
|
(_ (list y)))
|
|
(syntax-match (car x) (quote)
|
|
((quote ()) (f (cdr x)))
|
|
(_ (cons (car x) (f (cdr x)))))))))
|
|
(cond
|
|
((null? ls) (app 'quote '()))
|
|
((null? (cdr ls)) (car ls))
|
|
(else (app* 'append ls))))))
|
|
(define quasivector
|
|
(lambda (x)
|
|
(let ((pat-x x))
|
|
(syntax-match pat-x (quote)
|
|
((quote (x* ...)) (app 'quote (list->vector x*)))
|
|
(_ (let f ((x x) (k (lambda (ls) (app* 'vector ls))))
|
|
(syntax-match x (quote list cons)
|
|
((quote (x* ...))
|
|
(k (map (lambda (x) (app 'quote x)) x*)))
|
|
((list x* ...)
|
|
(k x*))
|
|
((cons x y)
|
|
(f y (lambda (ls) (k (cons x ls)))))
|
|
(_ (app 'list->vector pat-x)))))))))
|
|
(define vquasi
|
|
(lambda (p lev)
|
|
(syntax-match p ()
|
|
((p . q)
|
|
(syntax-match p (unquote unquote-splicing)
|
|
((unquote p ...)
|
|
(if (= lev 0)
|
|
(quasicons* p (vquasi q lev))
|
|
(quasicons
|
|
(quasicons (datum 'unquote)
|
|
(quasi p (- lev 1)))
|
|
(vquasi q lev))))
|
|
((unquote-splicing p ...)
|
|
(if (= lev 0)
|
|
(quasiappend p (vquasi q lev))
|
|
(quasicons
|
|
(quasicons
|
|
(datum 'unquote-splicing)
|
|
(quasi p (- lev 1)))
|
|
(vquasi q lev))))
|
|
(p (quasicons (quasi p lev) (vquasi q lev)))))
|
|
(() (app 'quote '())))))
|
|
(define quasi
|
|
(lambda (p lev)
|
|
(syntax-match p (unquote unquote-splicing quasiquote)
|
|
((unquote p)
|
|
(if (= lev 0)
|
|
p
|
|
(quasicons (datum 'unquote) (quasi (list p) (- lev 1)))))
|
|
(((unquote p ...) . q)
|
|
(if (= lev 0)
|
|
(quasicons* p (quasi q lev))
|
|
(quasicons
|
|
(quasicons (datum 'unquote)
|
|
(quasi p (- lev 1)))
|
|
(quasi q lev))))
|
|
(((unquote-splicing p ...) . q)
|
|
(if (= lev 0)
|
|
(quasiappend p (quasi q lev))
|
|
(quasicons
|
|
(quasicons (datum 'unquote-splicing)
|
|
(quasi p (- lev 1)))
|
|
(quasi q lev))))
|
|
((quasiquote p)
|
|
(quasicons (datum 'quasiquote)
|
|
(quasi (list p) (+ lev 1))))
|
|
((p . q) (quasicons (quasi p lev) (quasi q lev)))
|
|
(#(x ...) (not (stx? x)) (quasivector (vquasi x lev)))
|
|
(p (app 'quote p)))))
|
|
(lambda (x)
|
|
(syntax-match x ()
|
|
((_ e) (quasi e 0))))))
|
|
|
|
(define quasisyntax-macro
|
|
(let () ;;; FIXME: not really correct
|
|
(define quasi
|
|
(lambda (p lev)
|
|
(syntax-match p (unsyntax unsyntax-splicing quasisyntax)
|
|
((unsyntax p)
|
|
(if (= lev 0)
|
|
(let ((g (gensym)))
|
|
(values (list g) (list p) g))
|
|
(let-values (((lhs* rhs* p) (quasi p (- lev 1))))
|
|
(values lhs* rhs* (list 'unsyntax p)))))
|
|
(unsyntax (= lev 0)
|
|
(stx-error p "incorrect use of unsyntax"))
|
|
(((unsyntax-splicing p) . q)
|
|
(let-values (((lhs* rhs* q) (quasi q lev)))
|
|
(if (= lev 0)
|
|
(let ((g (gensym)))
|
|
(values (cons `(,g ...) lhs*) (cons p rhs*)
|
|
`(,g ... . ,q)))
|
|
(let-values (((lhs2* rhs2* p) (quasi p (- lev 1))))
|
|
(values (append lhs2* lhs*)
|
|
(append rhs2* rhs*)
|
|
`((unsyntax-splicing ,p) . ,q))))))
|
|
(unsyntax-splicing (= lev 0)
|
|
(stx-error p "incorrect use of unsyntax-splicing"))
|
|
((quasisyntax p)
|
|
(let-values (((lhs* rhs* p) (quasi p (+ lev 1))))
|
|
(values lhs* rhs* `(quasisyntax ,p))))
|
|
((p . q)
|
|
(let-values (((lhs* rhs* p) (quasi p lev))
|
|
((lhs2* rhs2* q) (quasi q lev)))
|
|
(values (append lhs2* lhs*)
|
|
(append rhs2* rhs*)
|
|
(cons p q))))
|
|
(#(x ...) (not (stx? p))
|
|
(let-values (((lhs* rhs* x*)
|
|
(let f ((x x))
|
|
(cond
|
|
((null? x) (values '() '() '()))
|
|
(else
|
|
(let-values (((lhs* rhs* a) (quasi (car x) lev)))
|
|
(let-values (((lhs2* rhs2* d) (f (cdr x))))
|
|
(values (append lhs* lhs2*)
|
|
(append rhs* rhs2*)
|
|
(cons a d)))))))))
|
|
(values lhs* rhs* (list->vector x*))))
|
|
(_ (values '() '() p)))))
|
|
(lambda (x)
|
|
(syntax-match x ()
|
|
((_ e)
|
|
(let-values (((lhs* rhs* v) (quasi e 0)))
|
|
(bless
|
|
`(syntax-case (list ,@rhs*) ()
|
|
(,lhs* (syntax ,v))))))))))
|
|
|
|
|
|
(define define-struct-macro
|
|
(if-wants-define-struct
|
|
(lambda (e)
|
|
(define enumerate
|
|
(lambda (ls)
|
|
(let f ((i 0) (ls ls))
|
|
(cond
|
|
((null? ls) '())
|
|
(else (cons i (f (+ i 1) (cdr ls))))))))
|
|
(define mkid
|
|
(lambda (id str)
|
|
(datum->stx id (string->symbol str))))
|
|
(syntax-match e ()
|
|
((_ name (field* ...))
|
|
(let* ((namestr (symbol->string (id->sym name)))
|
|
(fields (map id->sym field*))
|
|
(fieldstr* (map symbol->string fields))
|
|
(rtd (datum->stx name (make-struct-type namestr fields)))
|
|
(constr (mkid name (string-append "make-" namestr)))
|
|
(pred (mkid name (string-append namestr "?")))
|
|
(i* (enumerate field*))
|
|
(getters
|
|
(map (lambda (x)
|
|
(mkid name (string-append namestr "-" x)))
|
|
fieldstr*))
|
|
(setters
|
|
(map (lambda (x)
|
|
(mkid name (string-append "set-" namestr "-" x "!")))
|
|
fieldstr*)))
|
|
(bless
|
|
`(begin
|
|
(define-syntax ,name (cons '$rtd ',rtd))
|
|
(define ,constr
|
|
(lambda ,field*
|
|
($struct ',rtd ,@field*)))
|
|
(define ,pred
|
|
(lambda (x) ($struct/rtd? x ',rtd)))
|
|
,@(map (lambda (getter i)
|
|
`(define ,getter
|
|
(lambda (x)
|
|
(if ($struct/rtd? x ',rtd)
|
|
($struct-ref x ,i)
|
|
(assertion-violation ',getter
|
|
"not a struct of required type"
|
|
x ',rtd)))))
|
|
getters i*)
|
|
,@(map (lambda (setter i)
|
|
`(define ,setter
|
|
(lambda (x v)
|
|
(if ($struct/rtd? x ',rtd)
|
|
($struct-set! x ,i v)
|
|
(assertion-violation ',setter
|
|
"not a struct of required type"
|
|
x ',rtd)))))
|
|
setters i*)))))))
|
|
(lambda (stx)
|
|
(stx-error stx "define-struct not supported"))))
|
|
|
|
|
|
(define define-record-type-macro
|
|
(lambda (x)
|
|
(define (id ctxt . str*)
|
|
(datum->syntax ctxt
|
|
(string->symbol
|
|
(apply string-append
|
|
(map (lambda (x)
|
|
(cond
|
|
[(symbol? x) (symbol->string x)]
|
|
[(string? x) x]
|
|
[else (assertion-violation 'define-record-type "BUG")]))
|
|
str*)))))
|
|
(define (get-record-name spec)
|
|
(syntax-match spec ()
|
|
[(foo make-foo foo?) foo]
|
|
[foo foo]))
|
|
(define (get-record-constructor-name spec)
|
|
(syntax-match spec ()
|
|
[(foo make-foo foo?) make-foo]
|
|
[foo (id? foo) (id foo "make-" (stx->datum foo))]))
|
|
(define (get-record-predicate-name spec)
|
|
(syntax-match spec ()
|
|
[(foo make-foo foo?) foo?]
|
|
[foo (id? foo) (id foo (stx->datum foo) "?")]))
|
|
(define (get-clause id ls)
|
|
(syntax-match ls ()
|
|
[() #f]
|
|
[((x . rest) . ls)
|
|
(if (free-id=? (bless id) x)
|
|
`(,x . ,rest)
|
|
(get-clause id ls))]))
|
|
(define (foo-rtd-code name clause*)
|
|
(define (convert-field-spec* ls)
|
|
(list->vector
|
|
(map (lambda (x)
|
|
(syntax-match x (mutable immutable)
|
|
[(mutable name . rest) `(mutable ,name)]
|
|
[(immutable name . rest) `(immutable ,name)]
|
|
[name `(immutable ,name)]))
|
|
ls)))
|
|
(let ([parent-rtd-code
|
|
(syntax-match (get-clause 'parent clause*) ()
|
|
[(_ name) `(record-type-descriptor ,name)]
|
|
[_ '#f])]
|
|
[uid-code
|
|
(syntax-match (get-clause 'nongenerative clause*) ()
|
|
[(_) `',(gensym)]
|
|
[(_ uid) `',uid]
|
|
[_ #f])]
|
|
[sealed?
|
|
(syntax-match (get-clause 'sealed clause*) ()
|
|
[(_ #t) #t]
|
|
[_ #f])]
|
|
[opaque?
|
|
(syntax-match (get-clause 'opaque clause*) ()
|
|
[(_ #t) #t]
|
|
[_ #f])]
|
|
[fields
|
|
(syntax-match (get-clause 'fields clause*) ()
|
|
[(_ field-spec* ...)
|
|
`(quote ,(convert-field-spec* field-spec*))]
|
|
[_ ''#()])])
|
|
(bless
|
|
`(make-record-type-descriptor ',name
|
|
,parent-rtd-code
|
|
,uid-code ,sealed? ,opaque? ,fields))))
|
|
(define (foo-rcd-code clause* foo-rtd protocol)
|
|
(let ([parent-rcd-code
|
|
(syntax-match (get-clause 'parent clause*) ()
|
|
[(_ name) `(record-constructor-descriptor ,name)]
|
|
[_ #f])])
|
|
`(make-record-constructor-descriptor ,foo-rtd
|
|
,parent-rcd-code ,protocol)))
|
|
(define (get-protocol-code clause*)
|
|
(syntax-match (get-clause 'protocol clause*) ()
|
|
[(_ expr) expr]
|
|
[_ #f]))
|
|
(define (get-fields clause*)
|
|
(syntax-match clause* (fields)
|
|
[() '()]
|
|
[((fields f* ...) . _) f*]
|
|
[(_ . rest) (get-fields rest)]))
|
|
(define (get-mutator-indices fields)
|
|
(let f ([fields fields] [i 0])
|
|
(syntax-match fields (mutable)
|
|
[() '()]
|
|
[((mutable . _) . rest)
|
|
(cons i (f rest (+ i 1)))]
|
|
[(_ . rest)
|
|
(f rest (+ i 1))])))
|
|
(define (get-mutators foo fields)
|
|
(define (gen-name x)
|
|
(datum->syntax foo
|
|
(string->symbol
|
|
(string-append
|
|
(symbol->string (syntax->datum foo))
|
|
"-"
|
|
(symbol->string (syntax->datum x))
|
|
"-set!"))))
|
|
(let f ([fields fields])
|
|
(syntax-match fields (mutable)
|
|
[() '()]
|
|
[((mutable name accessor mutator) . rest)
|
|
(cons mutator (f rest))]
|
|
[((mutable name) . rest)
|
|
(cons (gen-name name) (f rest))]
|
|
[(_ . rest) (f rest)])))
|
|
(define (get-accessors foo fields)
|
|
(define (gen-name x)
|
|
(datum->syntax foo
|
|
(string->symbol
|
|
(string-append
|
|
(symbol->string (syntax->datum foo))
|
|
"-"
|
|
(symbol->string (syntax->datum x))))))
|
|
(map
|
|
(lambda (field)
|
|
(syntax-match field (mutable immutable)
|
|
[(mutable name accessor mutator) (id? accessor) accessor]
|
|
[(immutable name accessor) (id? accessor) accessor]
|
|
[(mutable name) (id? name) (gen-name name)]
|
|
[(immutable name) (id? name) (gen-name name)]
|
|
[name (id? name) (gen-name name)]
|
|
[others (stx-error field "invalid field spec")]))
|
|
fields))
|
|
(define (enumerate ls)
|
|
(let f ([ls ls] [i 0])
|
|
(cond
|
|
[(null? ls) '()]
|
|
[else (cons i (f (cdr ls) (+ i 1)))])))
|
|
(define (do-define-record namespec clause*)
|
|
(let* ([foo (get-record-name namespec)]
|
|
[foo-rtd (gensym)]
|
|
[foo-rcd (gensym)]
|
|
[protocol (gensym)]
|
|
[make-foo (get-record-constructor-name namespec)]
|
|
[fields (get-fields clause*)]
|
|
[idx* (enumerate fields)]
|
|
[foo-x* (get-accessors foo fields)]
|
|
[set-foo-x!* (get-mutators foo fields)]
|
|
[set-foo-idx* (get-mutator-indices fields)]
|
|
[foo? (get-record-predicate-name namespec)]
|
|
[foo-rtd-code (foo-rtd-code foo clause*)]
|
|
[foo-rcd-code (foo-rcd-code clause* foo-rtd protocol)]
|
|
[protocol-code (get-protocol-code clause*)])
|
|
(bless
|
|
`(begin
|
|
(define ,foo-rtd ,foo-rtd-code)
|
|
(define ,protocol ,protocol-code)
|
|
(define ,foo-rcd ,foo-rcd-code)
|
|
(define-syntax ,foo (list '$rtd #',foo-rtd #',foo-rcd))
|
|
(define ,foo? (record-predicate ,foo-rtd))
|
|
(define ,make-foo (record-constructor ,foo-rcd))
|
|
,@(map
|
|
(lambda (foo-x idx)
|
|
`(define ,foo-x (record-accessor ,foo-rtd ,idx)))
|
|
foo-x* idx*)
|
|
,@(map
|
|
(lambda (set-foo-x! idx)
|
|
`(define ,set-foo-x! (record-mutator ,foo-rtd ,idx)))
|
|
set-foo-x!* set-foo-idx*)))))
|
|
(define (verify-clauses x cls*)
|
|
(define valid-kwds
|
|
(map bless
|
|
'(fields parent parent-rtd protocol sealed opaque nongenerative)))
|
|
(define (free-id-member? x ls)
|
|
(and (pair? ls)
|
|
(or (free-id=? x (car ls))
|
|
(free-id-member? x (cdr ls)))))
|
|
(let f ([cls* cls*] [seen* '()])
|
|
(unless (null? cls*)
|
|
(syntax-match (car cls*) ()
|
|
[(kwd . rest)
|
|
(cond
|
|
[(or (not (id? kwd))
|
|
(not (free-id-member? kwd valid-kwds)))
|
|
(stx-error kwd "not a valid define-record-type keyword")]
|
|
[(bound-id-member? kwd seen*)
|
|
(syntax-violation #f
|
|
"duplicate use of keyword "
|
|
x kwd)]
|
|
[else (f (cdr cls*) (cons kwd seen*))])]
|
|
[cls
|
|
(stx-error cls "malformed define-record-type clause")]))))
|
|
(syntax-match x ()
|
|
[(_ namespec clause* ...)
|
|
(begin
|
|
(verify-clauses x clause*)
|
|
(do-define-record namespec clause*))])))
|
|
|
|
(define define-condition-type-macro
|
|
(lambda (x)
|
|
(define (mkname name suffix)
|
|
(datum->syntax name
|
|
(string->symbol
|
|
(string-append
|
|
(symbol->string (syntax->datum name))
|
|
suffix))))
|
|
(syntax-match x ()
|
|
[(ctxt name super constructor predicate (field* accessor*) ...)
|
|
(and (id? name)
|
|
(id? super)
|
|
(id? constructor)
|
|
(id? predicate)
|
|
(for-all id? field*)
|
|
(for-all id? accessor*))
|
|
(let ([aux-accessor* (map (lambda (x) (gensym)) accessor*)])
|
|
(bless
|
|
`(begin
|
|
(define-record-type (,name ,constructor ,(gensym))
|
|
(parent ,super)
|
|
(fields ,@(map (lambda (field aux)
|
|
`(immutable ,field ,aux))
|
|
field* aux-accessor*))
|
|
(nongenerative)
|
|
(sealed #f) (opaque #f))
|
|
(define ,predicate (condition-predicate
|
|
(record-type-descriptor ,name)))
|
|
,@(map
|
|
(lambda (accessor aux)
|
|
`(define ,accessor
|
|
(condition-accessor
|
|
(record-type-descriptor ,name) ,aux)))
|
|
accessor* aux-accessor*))))])))
|
|
|
|
(define incorrect-usage-macro
|
|
(lambda (e) (stx-error e "incorrect usage of auxiliary keyword")))
|
|
|
|
(define parameterize-transformer ;;; go away
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ () b b* ...)
|
|
(chi-internal (cons b b*) r mr))
|
|
((_ ((olhs* orhs*) ...) b b* ...)
|
|
(let ((lhs* (map (lambda (x) (gen-lexical 'lhs)) olhs*))
|
|
(rhs* (map (lambda (x) (gen-lexical 'rhs)) olhs*))
|
|
(t* (map (lambda (x) (gen-lexical 't)) olhs*))
|
|
(swap (gen-lexical 'swap)))
|
|
(build-let no-source
|
|
(append lhs* rhs*)
|
|
(append (chi-expr* olhs* r mr) (chi-expr* orhs* r mr))
|
|
(build-let no-source
|
|
(list swap)
|
|
(list (build-lambda no-source '()
|
|
(build-sequence no-source
|
|
(map (lambda (t lhs rhs)
|
|
(build-let no-source
|
|
(list t)
|
|
(list (build-application no-source
|
|
(build-lexical-reference no-source lhs)
|
|
'()))
|
|
(build-sequence no-source
|
|
(list (build-application no-source
|
|
(build-lexical-reference no-source lhs)
|
|
(list (build-lexical-reference no-source rhs)))
|
|
(build-lexical-assignment no-source rhs
|
|
(build-lexical-reference no-source t))))))
|
|
t* lhs* rhs*))))
|
|
(build-application no-source
|
|
(build-primref no-source 'dynamic-wind)
|
|
(list (build-lexical-reference no-source swap)
|
|
(build-lambda no-source '()
|
|
(chi-internal (cons b b*) r mr))
|
|
(build-lexical-reference no-source swap))))))))))
|
|
|
|
(define foreign-call-transformer
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ name arg* ...)
|
|
(build-foreign-call no-source
|
|
(chi-expr name r mr)
|
|
(chi-expr* arg* r mr))))))
|
|
|
|
;; p in pattern: matches:
|
|
;; () empty list
|
|
;; _ anything (no binding created)
|
|
;; any anything
|
|
;; (p1 . p2) pair
|
|
;; #(free-id <key>) <key> with free-identifier=?
|
|
;; each-any any proper list
|
|
;; #(each p) (p*)
|
|
;; #(each+ p1 (p2_1 ... p2_n) p3) (p1* (p2_n ... p2_1) . p3)
|
|
;; #(vector p) #(x ...) if p matches (x ...)
|
|
;; #(atom <object>) <object> with "equal?"
|
|
(define convert-pattern
|
|
; returns syntax-dispatch pattern & ids
|
|
(lambda (pattern keys)
|
|
(define cvt*
|
|
(lambda (p* n ids)
|
|
(if (null? p*)
|
|
(values '() ids)
|
|
(let-values (((y ids) (cvt* (cdr p*) n ids)))
|
|
(let-values (((x ids) (cvt (car p*) n ids)))
|
|
(values (cons x y) ids))))))
|
|
(define cvt
|
|
(lambda (p n ids)
|
|
(syntax-match p ()
|
|
(id (id? id)
|
|
(cond
|
|
((bound-id-member? p keys)
|
|
(values `#(free-id ,p) ids))
|
|
((free-id=? p (scheme-stx '_))
|
|
(values '_ ids))
|
|
(else (values 'any (cons (cons p n) ids)))))
|
|
((p dots) (ellipsis? dots)
|
|
(let-values (((p ids) (cvt p (+ n 1) ids)))
|
|
(values
|
|
(if (eq? p 'any) 'each-any `#(each ,p))
|
|
ids)))
|
|
((x dots ys ... . z) (ellipsis? dots)
|
|
(let-values (((z ids) (cvt z n ids)))
|
|
(let-values (((ys ids) (cvt* ys n ids)))
|
|
(let-values (((x ids) (cvt x (+ n 1) ids)))
|
|
(values `#(each+ ,x ,(reverse ys) ,z) ids)))))
|
|
((x . y)
|
|
(let-values (((y ids) (cvt y n ids)))
|
|
(let-values (((x ids) (cvt x n ids)))
|
|
(values (cons x y) ids))))
|
|
(() (values '() ids))
|
|
(#(p ...) (not (stx? p))
|
|
(let-values (((p ids) (cvt p n ids)))
|
|
(values `#(vector ,p) ids)))
|
|
(datum
|
|
(values `#(atom ,(stx->datum datum)) ids)))))
|
|
(cvt pattern 0 '())))
|
|
|
|
(define syntax-dispatch
|
|
(lambda (e p)
|
|
(define stx^
|
|
(lambda (e m* s* ae*)
|
|
(if (and (null? m*) (null? s*))
|
|
e
|
|
(mkstx e m* s* ae*))))
|
|
(define match-each
|
|
(lambda (e p m* s* ae*)
|
|
(cond
|
|
((pair? e)
|
|
(let ((first (match (car e) p m* s* ae* '())))
|
|
(and first
|
|
(let ((rest (match-each (cdr e) p m* s* ae*)))
|
|
(and rest (cons first rest))))))
|
|
((null? e) '())
|
|
((stx? e)
|
|
(let-values (((m* s* ae*) (join-wraps m* s* ae* e)))
|
|
(match-each (stx-expr e) p m* s* ae*)))
|
|
[(annotation? e)
|
|
(match-each (annotation-expression e) p m* s* ae*)]
|
|
(else #f))))
|
|
(define match-each+
|
|
(lambda (e x-pat y-pat z-pat m* s* ae* r)
|
|
(let f ((e e) (m* m*) (s* s*) (ae* ae*))
|
|
(cond
|
|
((pair? e)
|
|
(let-values (((xr* y-pat r) (f (cdr e) m* s* ae*)))
|
|
(if r
|
|
(if (null? y-pat)
|
|
(let ((xr (match (car e) x-pat m* s* ae* '())))
|
|
(if xr
|
|
(values (cons xr xr*) y-pat r)
|
|
(values #f #f #f)))
|
|
(values
|
|
'()
|
|
(cdr y-pat)
|
|
(match (car e) (car y-pat) m* s* ae* r)))
|
|
(values #f #f #f))))
|
|
((stx? e)
|
|
(let-values (((m* s* ae*) (join-wraps m* s* ae* e)))
|
|
(f (stx-expr e) m* s* ae*)))
|
|
[(annotation? e)
|
|
(f (annotation-expression e) m* s* ae*)]
|
|
(else (values '() y-pat (match e z-pat m* s* ae* r)))))))
|
|
(define match-each-any
|
|
(lambda (e m* s* ae*)
|
|
(cond
|
|
((pair? e)
|
|
(let ((l (match-each-any (cdr e) m* s* ae*)))
|
|
(and l (cons (stx^ (car e) m* s* ae*) l))))
|
|
((null? e) '())
|
|
((stx? e)
|
|
(let-values (((m* s* ae*) (join-wraps m* s* ae* e)))
|
|
(match-each-any (stx-expr e) m* s* ae*)))
|
|
[(annotation? e)
|
|
(match-each-any (annotation-expression e) m* s* ae*)]
|
|
(else #f))))
|
|
(define match-empty
|
|
(lambda (p r)
|
|
(cond
|
|
((null? p) r)
|
|
((eq? p '_) r)
|
|
((eq? p 'any) (cons '() r))
|
|
((pair? p) (match-empty (car p) (match-empty (cdr p) r)))
|
|
((eq? p 'each-any) (cons '() r))
|
|
(else
|
|
(case (vector-ref p 0)
|
|
((each) (match-empty (vector-ref p 1) r))
|
|
((each+)
|
|
(match-empty
|
|
(vector-ref p 1)
|
|
(match-empty
|
|
(reverse (vector-ref p 2))
|
|
(match-empty (vector-ref p 3) r))))
|
|
((free-id atom) r)
|
|
((vector) (match-empty (vector-ref p 1) r))
|
|
(else (assertion-violation 'syntax-dispatch "invalid pattern" p)))))))
|
|
(define combine
|
|
(lambda (r* r)
|
|
(if (null? (car r*))
|
|
r
|
|
(cons (map car r*) (combine (map cdr r*) r)))))
|
|
(define match*
|
|
(lambda (e p m* s* ae* r)
|
|
(cond
|
|
((null? p) (and (null? e) r))
|
|
((pair? p)
|
|
(and (pair? e)
|
|
(match (car e) (car p) m* s* ae*
|
|
(match (cdr e) (cdr p) m* s* ae* r))))
|
|
((eq? p 'each-any)
|
|
(let ((l (match-each-any e m* s* ae*))) (and l (cons l r))))
|
|
(else
|
|
(case (vector-ref p 0)
|
|
((each)
|
|
(if (null? e)
|
|
(match-empty (vector-ref p 1) r)
|
|
(let ((r* (match-each e (vector-ref p 1) m* s* ae*)))
|
|
(and r* (combine r* r)))))
|
|
((free-id)
|
|
(and (symbol? e)
|
|
(top-marked? m*)
|
|
(free-id=? (stx^ e m* s* ae*) (vector-ref p 1))
|
|
r))
|
|
((each+)
|
|
(let-values (((xr* y-pat r)
|
|
(match-each+ e (vector-ref p 1)
|
|
(vector-ref p 2) (vector-ref p 3) m* s* ae* r)))
|
|
(and r
|
|
(null? y-pat)
|
|
(if (null? xr*)
|
|
(match-empty (vector-ref p 1) r)
|
|
(combine xr* r)))))
|
|
((atom) (and (equal? (vector-ref p 1) (strip e m*)) r))
|
|
((vector)
|
|
(and (vector? e)
|
|
(match (vector->list e) (vector-ref p 1) m* s* ae* r)))
|
|
(else (assertion-violation 'syntax-dispatch "invalid pattern" p)))))))
|
|
(define match
|
|
(lambda (e p m* s* ae* r)
|
|
(cond
|
|
((not r) #f)
|
|
((eq? p '_) r)
|
|
((eq? p 'any) (cons (stx^ e m* s* ae*) r))
|
|
((stx? e)
|
|
(let-values (((m* s* ae*) (join-wraps m* s* ae* e)))
|
|
(match (stx-expr e) p m* s* ae* r)))
|
|
[(annotation? e)
|
|
(match (annotation-expression e) p m* s* ae* r)]
|
|
(else (match* e p m* s* ae* r)))))
|
|
(match e p '() '() '() '())))
|
|
|
|
(define ellipsis?
|
|
(lambda (x)
|
|
(and (id? x) (free-id=? x (scheme-stx '...)))))
|
|
|
|
(define underscore?
|
|
(lambda (x)
|
|
(and (id? x) (free-id=? x (scheme-stx '_)))))
|
|
|
|
(define (verify-literals lits expr)
|
|
(for-each
|
|
(lambda (x)
|
|
(when (or (not (id? x)) (ellipsis? x) (underscore? x))
|
|
(syntax-violation #f "invalid literal" expr x)))
|
|
lits))
|
|
|
|
(define syntax-case-transformer
|
|
(let ()
|
|
(define build-dispatch-call
|
|
(lambda (pvars expr y r mr)
|
|
(let ((ids (map car pvars))
|
|
(levels (map cdr pvars)))
|
|
(let ((labels (map gen-label ids))
|
|
(new-vars (map gen-lexical ids)))
|
|
(let ((body
|
|
(chi-expr
|
|
(add-subst (make-full-rib ids labels) expr)
|
|
(append
|
|
(map (lambda (label var level)
|
|
(cons label (make-binding 'syntax (cons var level))))
|
|
labels new-vars (map cdr pvars))
|
|
r)
|
|
mr)))
|
|
(build-application no-source
|
|
(build-primref no-source 'apply)
|
|
(list (build-lambda no-source new-vars body) y)))))))
|
|
(define invalid-ids-error
|
|
(lambda (id* e class)
|
|
(let find ((id* id*) (ok* '()))
|
|
(if (null? id*)
|
|
(stx-error e) ; shouldn't happen
|
|
(if (id? (car id*))
|
|
(if (bound-id-member? (car id*) ok*)
|
|
(syntax-error (car id*) "duplicate " class)
|
|
(find (cdr id*) (cons (car id*) ok*)))
|
|
(syntax-error (car id*) "invalid " class))))))
|
|
(define gen-clause
|
|
(lambda (x keys clauses r mr pat fender expr)
|
|
(let-values (((p pvars) (convert-pattern pat keys)))
|
|
(cond
|
|
((not (distinct-bound-ids? (map car pvars)))
|
|
(invalid-ids-error (map car pvars) pat "pattern variable"))
|
|
((not (for-all (lambda (x) (not (ellipsis? (car x)))) pvars))
|
|
(stx-error pat "misplaced ellipsis in syntax-case pattern"))
|
|
(else
|
|
(let ((y (gen-lexical 'tmp)))
|
|
(let ((test
|
|
(cond
|
|
((eq? fender #t) y)
|
|
(else
|
|
(let ((call
|
|
(build-dispatch-call
|
|
pvars fender y r mr)))
|
|
(build-conditional no-source
|
|
(build-lexical-reference no-source y)
|
|
call
|
|
(build-data no-source #f)))))))
|
|
(let ((conseq
|
|
(build-dispatch-call pvars expr
|
|
(build-lexical-reference no-source y)
|
|
r mr)))
|
|
(let ((altern
|
|
(gen-syntax-case x keys clauses r mr)))
|
|
(build-application no-source
|
|
(build-lambda no-source (list y)
|
|
(build-conditional no-source test conseq altern))
|
|
(list
|
|
(build-application no-source
|
|
(build-primref no-source 'syntax-dispatch)
|
|
(list
|
|
(build-lexical-reference no-source x)
|
|
(build-data no-source p))))))))))))))
|
|
(define gen-syntax-case
|
|
(lambda (x keys clauses r mr)
|
|
(if (null? clauses)
|
|
(build-application no-source
|
|
(build-primref no-source 'syntax-error)
|
|
(list (build-lexical-reference no-source x)))
|
|
(syntax-match (car clauses) ()
|
|
((pat expr)
|
|
(if (and (id? pat)
|
|
(not (bound-id-member? pat keys))
|
|
(not (ellipsis? pat)))
|
|
(if (free-id=? pat (scheme-stx '_))
|
|
(chi-expr expr r mr)
|
|
(let ((lab (gen-label pat))
|
|
(lex (gen-lexical pat)))
|
|
(let ((body
|
|
(chi-expr
|
|
(add-subst (make-full-rib (list pat) (list lab)) expr)
|
|
(cons (cons lab (make-binding 'syntax (cons lex 0))) r)
|
|
mr)))
|
|
(build-application no-source
|
|
(build-lambda no-source (list lex) body)
|
|
(list (build-lexical-reference no-source x))))))
|
|
(gen-clause x keys (cdr clauses) r mr pat #t expr)))
|
|
((pat fender expr)
|
|
(gen-clause x keys (cdr clauses) r mr pat fender expr))))))
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ expr (keys ...) clauses ...)
|
|
(begin
|
|
(verify-literals keys e)
|
|
(let ((x (gen-lexical 'tmp)))
|
|
(let ((body (gen-syntax-case x keys clauses r mr)))
|
|
(build-application no-source
|
|
(build-lambda no-source (list x) body)
|
|
(list (chi-expr expr r mr)))))))))))
|
|
|
|
(define (ellipsis-map proc ls . ls*)
|
|
(define who '...)
|
|
(unless (list? ls)
|
|
(assertion-violation who "not a list" ls))
|
|
(unless (null? ls*)
|
|
(let ([n (length ls)])
|
|
(for-each
|
|
(lambda (x)
|
|
(unless (list? x)
|
|
(assertion-violation who "not a list" x))
|
|
(unless (= (length x) n)
|
|
(assertion-violation who "length mismatch" ls x)))
|
|
ls*)))
|
|
(apply map proc ls ls*))
|
|
|
|
(define syntax-transformer
|
|
(let ()
|
|
(define gen-syntax
|
|
(lambda (src e r maps ellipsis? vec?)
|
|
(syntax-match e ()
|
|
(dots (ellipsis? dots)
|
|
(stx-error src "misplaced ellipsis in syntax form"))
|
|
(id (id? id)
|
|
(let* ((label (id->label e))
|
|
(b (label->binding label r)))
|
|
(if (eq? (binding-type b) 'syntax)
|
|
(let-values (((var maps)
|
|
(let ((var.lev (binding-value b)))
|
|
(gen-ref src (car var.lev) (cdr var.lev) maps))))
|
|
(values (list 'ref var) maps))
|
|
(values (list 'quote e) maps))))
|
|
((dots e) (ellipsis? dots)
|
|
(if vec?
|
|
(stx-error src "misplaced ellipsis in syntax form")
|
|
(gen-syntax src e r maps (lambda (x) #f) #f)))
|
|
((x dots . y) (ellipsis? dots)
|
|
(let f ((y y)
|
|
(k (lambda (maps)
|
|
(let-values (((x maps)
|
|
(gen-syntax src x r
|
|
(cons '() maps) ellipsis? #f)))
|
|
(if (null? (car maps))
|
|
(stx-error src
|
|
"extra ellipsis in syntax form")
|
|
(values (gen-map x (car maps)) (cdr maps)))))))
|
|
(syntax-match y ()
|
|
(() (k maps))
|
|
((dots . y) (ellipsis? dots)
|
|
(f y
|
|
(lambda (maps)
|
|
(let-values (((x maps) (k (cons '() maps))))
|
|
(if (null? (car maps))
|
|
(stx-error src "extra ellipsis in syntax form")
|
|
(values (gen-mappend x (car maps)) (cdr maps)))))))
|
|
(_
|
|
(let-values (((y maps)
|
|
(gen-syntax src y r maps ellipsis? vec?)))
|
|
(let-values (((x maps) (k maps)))
|
|
(values (gen-append x y) maps)))))))
|
|
((x . y)
|
|
(let-values (((xnew maps)
|
|
(gen-syntax src x r maps ellipsis? #f)))
|
|
(let-values (((ynew maps)
|
|
(gen-syntax src y r maps ellipsis? vec?)))
|
|
(values (gen-cons e x y xnew ynew) maps))))
|
|
(#(ls ...)
|
|
(let-values (((lsnew maps)
|
|
(gen-syntax src ls r maps ellipsis? #t)))
|
|
(values (gen-vector e ls lsnew) maps)))
|
|
(_ (values `(quote ,e) maps)))))
|
|
(define gen-ref
|
|
(lambda (src var level maps)
|
|
(if (= level 0)
|
|
(values var maps)
|
|
(if (null? maps)
|
|
(stx-error src "missing ellipsis in syntax form")
|
|
(let-values (((outer-var outer-maps)
|
|
(gen-ref src var (- level 1) (cdr maps))))
|
|
(cond
|
|
((assq outer-var (car maps)) =>
|
|
(lambda (b) (values (cdr b) maps)))
|
|
(else
|
|
(let ((inner-var (gen-lexical 'tmp)))
|
|
(values
|
|
inner-var
|
|
(cons
|
|
(cons (cons outer-var inner-var) (car maps))
|
|
outer-maps))))))))))
|
|
(define gen-append
|
|
(lambda (x y)
|
|
(if (equal? y '(quote ())) x `(append ,x ,y))))
|
|
(define gen-mappend
|
|
(lambda (e map-env)
|
|
`(apply (primitive append) ,(gen-map e map-env))))
|
|
(define gen-map
|
|
(lambda (e map-env)
|
|
(let ((formals (map cdr map-env))
|
|
(actuals (map (lambda (x) `(ref ,(car x))) map-env)))
|
|
(cond
|
|
; identity map equivalence:
|
|
; (map (lambda (x) x) y) == y
|
|
((eq? (car e) 'ref)
|
|
(car actuals))
|
|
; eta map equivalence:
|
|
; (map (lambda (x ...) (f x ...)) y ...) == (map f y ...)
|
|
((for-all
|
|
(lambda (x) (and (eq? (car x) 'ref) (memq (cadr x) formals)))
|
|
(cdr e))
|
|
(let ((args (map (let ((r (map cons formals actuals)))
|
|
(lambda (x) (cdr (assq (cadr x) r))))
|
|
(cdr e))))
|
|
`(map (primitive ,(car e)) . ,args)))
|
|
(else (cons* 'map (list 'lambda formals e) actuals))))))
|
|
(define gen-cons
|
|
(lambda (e x y xnew ynew)
|
|
(case (car ynew)
|
|
((quote)
|
|
(if (eq? (car xnew) 'quote)
|
|
(let ((xnew (cadr xnew)) (ynew (cadr ynew)))
|
|
(if (and (eq? xnew x) (eq? ynew y))
|
|
`(quote ,e)
|
|
`(quote ,(cons xnew ynew))))
|
|
(if (null? (cadr ynew))
|
|
`(list ,xnew)
|
|
`(cons ,xnew ,ynew))))
|
|
((list) `(list ,xnew . ,(cdr ynew)))
|
|
(else `(cons ,xnew ,ynew)))))
|
|
(define gen-vector
|
|
(lambda (e ls lsnew)
|
|
(cond
|
|
((eq? (car lsnew) 'quote)
|
|
(if (eq? (cadr lsnew) ls)
|
|
`(quote ,e)
|
|
`(quote #(,@(cadr lsnew)))))
|
|
((eq? (car lsnew) 'list)
|
|
`(vector . ,(cdr lsnew)))
|
|
(else `(list->vector ,lsnew)))))
|
|
(define regen
|
|
(lambda (x)
|
|
(case (car x)
|
|
((ref) (build-lexical-reference no-source (cadr x)))
|
|
((primitive) (build-primref no-source (cadr x)))
|
|
((quote) (build-data no-source (cadr x)))
|
|
((lambda) (build-lambda no-source (cadr x) (regen (caddr x))))
|
|
((map)
|
|
(let ((ls (map regen (cdr x))))
|
|
(build-application no-source
|
|
(build-primref no-source 'ellipsis-map)
|
|
ls)))
|
|
(else
|
|
(build-application no-source
|
|
(build-primref no-source (car x))
|
|
(map regen (cdr x)))))))
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ x)
|
|
(let-values (((e maps) (gen-syntax e x r '() ellipsis? #f)))
|
|
(regen e)))))))
|
|
|
|
(define core-macro-transformer
|
|
(lambda (name)
|
|
(case name
|
|
((quote) quote-transformer)
|
|
((lambda) lambda-transformer)
|
|
((case-lambda) case-lambda-transformer)
|
|
((letrec) letrec-transformer)
|
|
((letrec*) letrec*-transformer)
|
|
((case) case-transformer)
|
|
((if) if-transformer)
|
|
((when) when-transformer)
|
|
((unless) unless-transformer)
|
|
((parameterize) parameterize-transformer)
|
|
((foreign-call) foreign-call-transformer)
|
|
((syntax-case) syntax-case-transformer)
|
|
((syntax) syntax-transformer)
|
|
((type-descriptor) type-descriptor-transformer)
|
|
((record-type-descriptor) record-type-descriptor-transformer)
|
|
((record-constructor-descriptor) record-constructor-descriptor-transformer)
|
|
((fluid-let-syntax) fluid-let-syntax-transformer)
|
|
(else (assertion-violation
|
|
'macro-transformer
|
|
"BUG: cannot find transformer"
|
|
name)))))
|
|
|
|
(define file-options-macro
|
|
(lambda (x)
|
|
(syntax-match x ()
|
|
((_ opt* ...)
|
|
(and (for-all id? opt*) (file-options-spec (map id->sym opt*)))
|
|
(bless `(quote ,(file-options-spec (map id->sym opt*))))))))
|
|
|
|
(define symbol-macro
|
|
(lambda (x set)
|
|
(syntax-match x ()
|
|
((_ name)
|
|
(and (id? name) (memq (id->sym name) set))
|
|
(bless `(quote ,name))))))
|
|
|
|
(define macro-transformer
|
|
(lambda (x)
|
|
(cond
|
|
((procedure? x) x)
|
|
((symbol? x)
|
|
(case x
|
|
((define-record-type) define-record-type-macro)
|
|
((define-struct) define-struct-macro)
|
|
((include) include-macro)
|
|
((cond) cond-macro)
|
|
((let) let-macro)
|
|
((do) do-macro)
|
|
((or) or-macro)
|
|
((and) and-macro)
|
|
((let*) let*-macro)
|
|
((let-values) let-values-macro)
|
|
((let*-values) let*-values-macro)
|
|
((syntax-rules) syntax-rules-macro)
|
|
((quasiquote) quasiquote-macro)
|
|
((quasisyntax) quasisyntax-macro)
|
|
((with-syntax) with-syntax-macro)
|
|
((identifier-syntax) identifier-syntax-macro)
|
|
((time) time-macro)
|
|
((delay) delay-macro)
|
|
((assert) assert-macro)
|
|
((endianness) endianness-macro)
|
|
((guard) guard-macro)
|
|
((define-enumeration) define-enumeration-macro)
|
|
((trace-lambda) trace-lambda-macro)
|
|
((trace-define) trace-define-macro)
|
|
((trace-define-syntax) trace-define-syntax-macro)
|
|
((define-condition-type) define-condition-type-macro)
|
|
((include-into) include-into-macro)
|
|
((eol-style)
|
|
(lambda (x)
|
|
(symbol-macro x '(none lf cr crlf nel crnel ls))))
|
|
((error-handling-mode)
|
|
(lambda (x)
|
|
(symbol-macro x '(ignore raise replace))))
|
|
((buffer-mode)
|
|
(lambda (x)
|
|
(symbol-macro x '(none line block))))
|
|
((file-options) file-options-macro)
|
|
((... => _ else unquote unquote-splicing
|
|
unsyntax unsyntax-splicing
|
|
fields mutable immutable parent protocol
|
|
sealed opaque nongenerative parent-rtd)
|
|
incorrect-usage-macro)
|
|
(else
|
|
(error 'macro-transformer "BUG: invalid macro" x))))
|
|
(else
|
|
(error 'core-macro-transformer "BUG: invalid macro" x)))))
|
|
|
|
(define (local-macro-transformer x)
|
|
(car x))
|
|
|
|
(define (do-macro-call transformer expr)
|
|
(let ([out (transformer (add-mark anti-mark expr #f))])
|
|
(let f ([x out])
|
|
;;; don't feed me cycles.
|
|
(unless (stx? x)
|
|
(cond
|
|
[(pair? x) (f (car x)) (f (cdr x))]
|
|
[(vector? x) (vector-for-each f x)]
|
|
[(symbol? x)
|
|
(syntax-violation #f
|
|
"raw symbol encountered in output of macro"
|
|
expr x)])))
|
|
(add-mark (gen-mark) out expr)))
|
|
|
|
;;; chi procedures
|
|
(define chi-macro
|
|
(lambda (p e) (do-macro-call (macro-transformer p) e)))
|
|
|
|
(define chi-local-macro
|
|
(lambda (p e) (do-macro-call (local-macro-transformer p) e)))
|
|
|
|
(define (chi-global-macro p e)
|
|
;;; FIXME: does not handle macro!?
|
|
(let ((lib (car p))
|
|
(loc (cdr p)))
|
|
(visit-library lib)
|
|
(let ((x (symbol-value loc)))
|
|
(let ((transformer
|
|
(cond
|
|
((procedure? x) x)
|
|
(else (assertion-violation 'chi-global-macro
|
|
"BUG: not a procedure" x)))))
|
|
(do-macro-call transformer e)))))
|
|
|
|
(define chi-expr*
|
|
(lambda (e* r mr)
|
|
;;; expand left to right
|
|
(cond
|
|
((null? e*) '())
|
|
(else
|
|
(let ((e (chi-expr (car e*) r mr)))
|
|
(cons e (chi-expr* (cdr e*) r mr)))))))
|
|
|
|
(define chi-application
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((rator rands ...)
|
|
(let ((rator (chi-expr rator r mr)))
|
|
(build-application no-source
|
|
rator
|
|
(chi-expr* rands r mr)))))))
|
|
|
|
(define chi-expr
|
|
(lambda (e r mr)
|
|
(let-values (((type value kwd) (syntax-type e r)))
|
|
(case type
|
|
((core-macro)
|
|
(let ((transformer (core-macro-transformer value)))
|
|
(transformer e r mr)))
|
|
((global)
|
|
(let* ((lib (car value))
|
|
(loc (cdr value)))
|
|
((inv-collector) lib)
|
|
(build-global-reference no-source loc)))
|
|
((core-prim)
|
|
(let ((name value))
|
|
(build-primref no-source name)))
|
|
((call) (chi-application e r mr))
|
|
((lexical)
|
|
(let ((lex (lexical-var value)))
|
|
(build-lexical-reference no-source lex)))
|
|
((global-macro global-macro!)
|
|
(chi-expr (chi-global-macro value e) r mr))
|
|
((local-macro local-macro!) (chi-expr (chi-local-macro value e) r mr))
|
|
((macro macro!) (chi-expr (chi-macro value e) r mr))
|
|
((constant)
|
|
(let ((datum value))
|
|
(build-data no-source datum)))
|
|
((set!) (chi-set! e r mr))
|
|
((begin)
|
|
(syntax-match e ()
|
|
((_ x x* ...)
|
|
(build-sequence no-source
|
|
(chi-expr* (cons x x*) r mr)))))
|
|
((let-syntax letrec-syntax)
|
|
(syntax-match e ()
|
|
((_ ((xlhs* xrhs*) ...) xbody xbody* ...)
|
|
(unless (valid-bound-ids? xlhs*)
|
|
(stx-error e "invalid identifiers"))
|
|
(let* ((xlab* (map gen-label xlhs*))
|
|
(xrib (make-full-rib xlhs* xlab*))
|
|
(xb* (map (lambda (x)
|
|
(make-eval-transformer
|
|
(expand-transformer
|
|
(if (eq? type 'let-syntax)
|
|
x
|
|
(add-subst xrib x))
|
|
mr)))
|
|
xrhs*)))
|
|
(build-sequence no-source
|
|
(chi-expr*
|
|
(map (lambda (x) (add-subst xrib x)) (cons xbody xbody*))
|
|
(append (map cons xlab* xb*) r)
|
|
(append (map cons xlab* xb*) mr)))))))
|
|
((displaced-lexical)
|
|
(stx-error e "identifier out of context"))
|
|
((syntax) (stx-error e "reference to pattern variable outside a syntax form"))
|
|
((define define-syntax module import library)
|
|
(stx-error e
|
|
(string-append
|
|
(case type
|
|
((define) "a definition")
|
|
((define-syntax) "a define-syntax")
|
|
((module) "a module definition")
|
|
((library) "a library definition")
|
|
((import) "an import declaration")
|
|
(else "a non-expression"))
|
|
" was found where an expression was expected")))
|
|
((mutable)
|
|
(stx-error e
|
|
"attempt to reference an unexportable variable"))
|
|
(else
|
|
;(assertion-violation 'chi-expr "invalid type " type (strip e '()))
|
|
(stx-error e "invalid expression"))))))
|
|
|
|
(define chi-set!
|
|
(lambda (e r mr)
|
|
(syntax-match e ()
|
|
((_ x v) (id? x)
|
|
(let-values (((type value kwd) (syntax-type x r)))
|
|
(case type
|
|
((lexical)
|
|
(set-lexical-mutable! value #t)
|
|
(build-lexical-assignment no-source
|
|
(lexical-var value)
|
|
(chi-expr v r mr)))
|
|
((core-prim)
|
|
(stx-error e "cannot modify imported core primitive"))
|
|
((global)
|
|
(stx-error e "attempt to modify imported binding"))
|
|
((global-macro!)
|
|
(chi-expr (chi-global-macro value e) r mr))
|
|
((local-macro!)
|
|
(chi-expr (chi-local-macro value e) r mr))
|
|
((mutable)
|
|
(stx-error e
|
|
"attempt to assign to an unexportable variable"))
|
|
(else (stx-error e))))))))
|
|
|
|
(define (verify-formals fmls stx)
|
|
(syntax-match fmls ()
|
|
((x* ...)
|
|
(unless (valid-bound-ids? x*)
|
|
(invalid-fmls-error stx fmls)))
|
|
((x* ... . x)
|
|
(unless (valid-bound-ids? (cons x x*))
|
|
(invalid-fmls-error stx fmls)))
|
|
(_ (stx-error stx "invalid syntax"))))
|
|
|
|
(define chi-lambda-clause
|
|
(lambda (stx fmls body* r mr)
|
|
(syntax-match fmls ()
|
|
((x* ...)
|
|
(begin
|
|
(verify-formals fmls stx)
|
|
(let ((lex* (map gen-lexical x*))
|
|
(lab* (map gen-label x*)))
|
|
(values
|
|
lex*
|
|
(chi-internal
|
|
(add-subst (make-full-rib x* lab*) body*)
|
|
(add-lexicals lab* lex* r)
|
|
mr)))))
|
|
((x* ... . x)
|
|
(begin
|
|
(verify-formals fmls stx)
|
|
(let ((lex* (map gen-lexical x*)) (lab* (map gen-label x*))
|
|
(lex (gen-lexical x)) (lab (gen-label x)))
|
|
(values
|
|
(append lex* lex)
|
|
(chi-internal
|
|
(add-subst
|
|
(make-full-rib (cons x x*) (cons lab lab*))
|
|
body*)
|
|
(add-lexicals (cons lab lab*) (cons lex lex*) r)
|
|
mr)))))
|
|
(_ (stx-error fmls "invalid syntax")))))
|
|
|
|
(define chi-lambda-clause*
|
|
(lambda (stx fmls* body** r mr)
|
|
(cond
|
|
((null? fmls*) (values '() '()))
|
|
(else
|
|
(let-values (((a b)
|
|
(chi-lambda-clause stx (car fmls*) (car body**) r mr)))
|
|
(let-values (((a* b*)
|
|
(chi-lambda-clause* stx (cdr fmls*) (cdr body**) r mr)))
|
|
(values (cons a a*) (cons b b*))))))))
|
|
|
|
(define (chi-defun x r mr)
|
|
(let ((fmls (car x)) (body* (cdr x)))
|
|
(let-values (((fmls body)
|
|
(chi-lambda-clause fmls fmls body* r mr)))
|
|
(build-lambda no-source fmls body))))
|
|
|
|
(define chi-rhs
|
|
(lambda (rhs r mr)
|
|
(case (car rhs)
|
|
((defun) (chi-defun (cdr rhs) r mr))
|
|
((expr)
|
|
(let ((expr (cdr rhs)))
|
|
(chi-expr expr r mr)))
|
|
((top-expr)
|
|
(let ((expr (cdr rhs)))
|
|
(build-sequence no-source
|
|
(list (chi-expr expr r mr)
|
|
(build-void)))))
|
|
(else (assertion-violation 'chi-rhs "BUG: invalid rhs" rhs)))))
|
|
|
|
(define (expand-interaction-rhs*/init* lhs* rhs* init* r mr)
|
|
(let f ([lhs* lhs*] [rhs* rhs*])
|
|
(cond
|
|
[(null? lhs*)
|
|
(map (lambda (x) (chi-expr x r mr)) init*)]
|
|
[else
|
|
(let ([lhs (car lhs*)] [rhs (car rhs*)])
|
|
(case (car rhs)
|
|
[(defun)
|
|
(let ([rhs (chi-defun (cdr rhs) r mr)])
|
|
(cons
|
|
(build-global-assignment no-source lhs rhs)
|
|
(f (cdr lhs*) (cdr rhs*))))]
|
|
[(expr)
|
|
(let ([rhs (chi-expr (cdr rhs) r mr)])
|
|
(cons
|
|
(build-global-assignment no-source lhs rhs)
|
|
(f (cdr lhs*) (cdr rhs*))))]
|
|
[(top-expr)
|
|
(let ([e (chi-expr (cdr rhs) r mr)])
|
|
(cons e (f (cdr lhs*) (cdr rhs*))))]
|
|
[else (error 'expand-interaction "invallid" rhs)]))])))
|
|
|
|
(define chi-rhs*
|
|
(lambda (rhs* r mr)
|
|
(let f ((ls rhs*))
|
|
(cond ;;; chi-rhs in order
|
|
((null? ls) '())
|
|
(else
|
|
(let ((a (chi-rhs (car ls) r mr)))
|
|
(cons a (f (cdr ls)))))))))
|
|
|
|
(define find-bound=?
|
|
(lambda (x lhs* rhs*)
|
|
(cond
|
|
((null? lhs*) #f)
|
|
((bound-id=? x (car lhs*)) (car rhs*))
|
|
(else (find-bound=? x (cdr lhs*) (cdr rhs*))))))
|
|
|
|
(define (find-dups ls)
|
|
(let f ((ls ls) (dups '()))
|
|
(cond
|
|
((null? ls) dups)
|
|
((find-bound=? (car ls) (cdr ls) (cdr ls)) =>
|
|
(lambda (x) (f (cdr ls) (cons (list (car ls) x) dups))))
|
|
(else (f (cdr ls) dups)))))
|
|
|
|
(define chi-internal
|
|
(lambda (e* r mr)
|
|
(let ((rib (make-empty-rib)))
|
|
(let-values (((e* r mr lex* rhs* mod** kwd*)
|
|
(chi-body* (map (lambda (x) (add-subst rib x))
|
|
(syntax->list e*))
|
|
r mr '() '() '() '() rib #f)))
|
|
(when (null? e*)
|
|
(stx-error e* "no expression in body"))
|
|
(let* ((init*
|
|
(chi-expr* (append (apply append (reverse mod**)) e*) r mr))
|
|
(rhs* (chi-rhs* rhs* r mr)))
|
|
(build-letrec* no-source
|
|
(reverse lex*) (reverse rhs*)
|
|
(build-sequence no-source init*)))))))
|
|
|
|
(define parse-module
|
|
(lambda (e)
|
|
(syntax-match e ()
|
|
((_ (export* ...) b* ...)
|
|
(begin
|
|
(unless (for-all id? export*)
|
|
(stx-error e "module exports must be identifiers"))
|
|
(values #f (list->vector export*) b*)))
|
|
((_ name (export* ...) b* ...)
|
|
(begin
|
|
(unless (id? name)
|
|
(stx-error e "module name must be an identifier"))
|
|
(unless (for-all id? export*)
|
|
(stx-error e "module exports must be identifiers"))
|
|
(values name (list->vector export*) b*))))))
|
|
|
|
(define-record module-interface (first-mark exp-id-vec exp-lab-vec))
|
|
|
|
(define (module-interface-exp-id* iface id)
|
|
(define (diff-marks ls x)
|
|
(when (null? ls) (error 'diff-marks "BUG: should not happen"))
|
|
(let ([a (car ls)])
|
|
(if (eq? a x)
|
|
'()
|
|
(cons a (diff-marks (cdr ls) x)))))
|
|
(let ([diff
|
|
(diff-marks (stx-mark* id) (module-interface-first-mark iface))]
|
|
[id-vec (module-interface-exp-id-vec iface)])
|
|
(if (null? diff)
|
|
id-vec
|
|
(vector-map
|
|
(lambda (x)
|
|
(make-stx (stx-expr x) (append diff (stx-mark* x)) '() '()))
|
|
id-vec))))
|
|
|
|
|
|
(define chi-internal-module
|
|
(lambda (e r mr lex* rhs* mod** kwd*)
|
|
(let-values (((name exp-id* e*) (parse-module e)))
|
|
(let* ((rib (make-empty-rib))
|
|
(e* (map (lambda (x) (add-subst rib x)) (syntax->list e*))))
|
|
(let-values (((e* r mr lex* rhs* mod** kwd*)
|
|
(chi-body* e* r mr lex* rhs* mod** kwd* rib #f)))
|
|
(let ((exp-lab*
|
|
(vector-map
|
|
(lambda (x)
|
|
(or (id->label
|
|
(mkstx (id->sym x) (stx-mark* x)
|
|
(list rib)
|
|
'()))
|
|
(stx-error x "cannot find module export")))
|
|
exp-id*))
|
|
(mod** (cons e* mod**)))
|
|
(if (not name) ;;; explicit export
|
|
(values lex* rhs* exp-id* exp-lab* r mr mod** kwd*)
|
|
(let ((lab (gen-label 'module))
|
|
(iface
|
|
(make-module-interface
|
|
(car (stx-mark* name))
|
|
(vector-map
|
|
(lambda (x)
|
|
(make-stx (stx-expr x) (stx-mark* x) '() '()))
|
|
exp-id*)
|
|
exp-lab*)))
|
|
(values lex* rhs*
|
|
(vector name) ;;; FIXME: module cannot
|
|
(vector lab) ;;; export itself yet
|
|
(cons (cons lab (cons '$module iface)) r)
|
|
(cons (cons lab (cons '$module iface)) mr)
|
|
mod** kwd*)))))))))
|
|
|
|
(define chi-body*
|
|
(lambda (e* r mr lex* rhs* mod** kwd* rib top?)
|
|
(cond
|
|
((null? e*) (values e* r mr lex* rhs* mod** kwd*))
|
|
(else
|
|
(let ((e (car e*)))
|
|
(let-values (((type value kwd) (syntax-type e r)))
|
|
(let ((kwd* (if (id? kwd) (cons kwd kwd*) kwd*)))
|
|
(case type
|
|
((define)
|
|
(let-values (((id rhs) (parse-define e)))
|
|
(when (bound-id-member? id kwd*)
|
|
(stx-error e "cannot redefine keyword"))
|
|
(let-values ([(lab lex) (gen-define-label+loc id rib)])
|
|
(extend-rib! rib id lab)
|
|
(chi-body* (cdr e*)
|
|
(add-lexical lab lex r) mr
|
|
(cons lex lex*) (cons rhs rhs*)
|
|
mod** kwd* rib top?))))
|
|
((define-syntax)
|
|
(let-values (((id rhs) (parse-define-syntax e)))
|
|
(when (bound-id-member? id kwd*)
|
|
(stx-error e "cannot redefine keyword"))
|
|
(let ((lab (gen-define-label id rib))
|
|
(expanded-rhs (expand-transformer rhs mr)))
|
|
(extend-rib! rib id lab)
|
|
(let ((b (make-eval-transformer expanded-rhs)))
|
|
(chi-body* (cdr e*)
|
|
(cons (cons lab b) r) (cons (cons lab b) mr)
|
|
lex* rhs* mod** kwd* rib top?)))))
|
|
((let-syntax letrec-syntax)
|
|
(syntax-match e ()
|
|
((_ ((xlhs* xrhs*) ...) xbody* ...)
|
|
(unless (valid-bound-ids? xlhs*)
|
|
(stx-error e "invalid identifiers"))
|
|
(let* ((xlab* (map gen-label xlhs*))
|
|
(xrib (make-full-rib xlhs* xlab*))
|
|
(xb* (map (lambda (x)
|
|
(make-eval-transformer
|
|
(expand-transformer
|
|
(if (eq? type 'let-syntax)
|
|
x
|
|
(add-subst xrib x))
|
|
mr)))
|
|
xrhs*)))
|
|
(chi-body*
|
|
(append (map (lambda (x) (add-subst xrib x)) xbody*) (cdr e*))
|
|
(append (map cons xlab* xb*) r)
|
|
(append (map cons xlab* xb*) mr)
|
|
lex* rhs* mod** kwd* rib top?)))))
|
|
((begin)
|
|
(syntax-match e ()
|
|
((_ x* ...)
|
|
(chi-body* (append x* (cdr e*))
|
|
r mr lex* rhs* mod** kwd* rib top?))))
|
|
((global-macro global-macro!)
|
|
(chi-body*
|
|
(cons (add-subst rib (chi-global-macro value e))
|
|
(cdr e*))
|
|
r mr lex* rhs* mod** kwd* rib top?))
|
|
((local-macro local-macro!)
|
|
(chi-body*
|
|
(cons (add-subst rib (chi-local-macro value e))
|
|
(cdr e*))
|
|
r mr lex* rhs* mod** kwd* rib top?))
|
|
((macro macro!)
|
|
(chi-body*
|
|
(cons (add-subst rib (chi-macro value e))
|
|
(cdr e*))
|
|
r mr lex* rhs* mod** kwd* rib top?))
|
|
((module)
|
|
(let-values (((lex* rhs* m-exp-id* m-exp-lab* r mr mod** kwd*)
|
|
(chi-internal-module e r mr lex* rhs* mod** kwd*)))
|
|
(vector-for-each
|
|
(lambda (id lab) (extend-rib! rib id lab))
|
|
m-exp-id* m-exp-lab*)
|
|
(chi-body* (cdr e*) r mr lex* rhs* mod** kwd* rib top?)))
|
|
((library)
|
|
(library-expander (stx->datum e))
|
|
(chi-body* (cdr e*) r mr lex* rhs* mod** kwd* rib top?))
|
|
((import)
|
|
(let ()
|
|
(define (module-import? e)
|
|
(syntax-match e ()
|
|
[(_ id) (id? id) #t]
|
|
[(_ imp* ...) #f]
|
|
[_ (stx-error e "malformed import form")]))
|
|
(define (module-import e r)
|
|
(syntax-match e ()
|
|
((_ id) (id? id)
|
|
(let-values (((type value kwd) (syntax-type id r)))
|
|
(case type
|
|
(($module)
|
|
(let ((iface value))
|
|
(values
|
|
(module-interface-exp-id* iface id)
|
|
(module-interface-exp-lab-vec iface))))
|
|
(else (stx-error e "invalid import")))))))
|
|
(define (library-import e)
|
|
(syntax-match e ()
|
|
[(ctxt imp* ...)
|
|
(let-values (((subst-names subst-labels)
|
|
(parse-import-spec*
|
|
(syntax->datum imp*))))
|
|
(values
|
|
(vector-map
|
|
(lambda (name)
|
|
(datum->stx ctxt name))
|
|
subst-names)
|
|
subst-labels))]
|
|
[_ (stx-error e "invalid import form")]))
|
|
(let-values (((id* lab*)
|
|
(if (module-import? e)
|
|
(module-import e r)
|
|
(library-import e))))
|
|
(vector-for-each
|
|
(lambda (id lab) (extend-rib! rib id lab))
|
|
id* lab*)))
|
|
(chi-body* (cdr e*) r mr lex* rhs* mod** kwd* rib top?))
|
|
(else
|
|
(if top?
|
|
(chi-body* (cdr e*) r mr
|
|
(cons (gen-lexical 'dummy) lex*)
|
|
(cons (cons 'top-expr e) rhs*)
|
|
mod** kwd* rib top?)
|
|
(values e* r mr lex* rhs* mod** kwd*)))))))))))
|
|
|
|
(define (expand-transformer expr r)
|
|
(let ((rtc (make-collector)))
|
|
(let ((expanded-rhs
|
|
(parameterize ((inv-collector rtc)
|
|
(vis-collector (lambda (x) (values))))
|
|
(chi-expr expr r r))))
|
|
(for-each
|
|
(let ((mark-visit (vis-collector)))
|
|
(lambda (x)
|
|
(invoke-library x)
|
|
(mark-visit x)))
|
|
(rtc))
|
|
expanded-rhs)))
|
|
|
|
(define (parse-exports exp*)
|
|
(define (idsyn? x) (symbol? (syntax->datum x)))
|
|
(let f ((exp* exp*) (int* '()) (ext* '()))
|
|
(cond
|
|
((null? exp*)
|
|
(let ((id* (map (lambda (x) (make-stx x top-mark* '() '())) ext*)))
|
|
(unless (valid-bound-ids? id*)
|
|
(syntax-violation 'export "invalid exports"
|
|
(find-dups id*))))
|
|
(values (map syntax->datum int*) (map syntax->datum ext*)))
|
|
(else
|
|
(syntax-match (car exp*) ()
|
|
((rename (i* e*) ...)
|
|
(begin
|
|
(unless (and (eq? (syntax->datum rename) 'rename)
|
|
(for-all idsyn? i*)
|
|
(for-all idsyn? e*))
|
|
(syntax-violation 'export "invalid export specifier" (car exp*)))
|
|
(f (cdr exp*) (append i* int*) (append e* ext*))))
|
|
(ie
|
|
(begin
|
|
(unless (idsyn? ie)
|
|
(syntax-violation 'export "invalid export" ie))
|
|
(f (cdr exp*) (cons ie int*) (cons ie ext*)))))))))
|
|
|
|
;;; given a library name, like (foo bar (1 2 3)),
|
|
;;; returns the identifiers and the version of the library
|
|
;;; as (foo bar) (1 2 3).
|
|
(define (parse-library-name spec)
|
|
(define (parse x)
|
|
(syntax-match x ()
|
|
[((v* ...))
|
|
(for-all
|
|
(lambda (x)
|
|
(let ([x (syntax->datum x)])
|
|
(and (integer? x) (exact? x))))
|
|
v*)
|
|
(values '() (map syntax->datum v*))]
|
|
[(x . rest) (symbol? (syntax->datum x))
|
|
(let-values ([(x* v*) (parse rest)])
|
|
(values (cons (syntax->datum x) x*) v*))]
|
|
[() (values '() '())]
|
|
[_ (stx-error spec "invalid library name")]))
|
|
(let-values (((name* ver*) (parse spec)))
|
|
(when (null? name*) (stx-error spec "empty library name"))
|
|
(values name* ver*)))
|
|
|
|
;;; given a library form, returns the name part, the export
|
|
;;; specs, import specs and the body of the library.
|
|
(define parse-library
|
|
(lambda (e)
|
|
(syntax-match e ()
|
|
((library (name* ...)
|
|
(export exp* ...)
|
|
(import imp* ...)
|
|
b* ...)
|
|
(and (eq? (syntax->datum export) 'export)
|
|
(eq? (syntax->datum import) 'import)
|
|
(eq? (syntax->datum library) 'library))
|
|
(values name* exp* imp* b*))
|
|
(_ (stx-error e "malformed library")))))
|
|
|
|
;;; given a list of import-specs, return a subst and the list of
|
|
;;; libraries that were imported.
|
|
;;; Example: given ((rename (only (foo) x z) (x y)) (only (bar) q))
|
|
;;; returns: ((z . z$label) (y . x$label) (q . q$label))
|
|
;;; and (#<library (foo)> #<library (bar)>)
|
|
|
|
(define (parse-import-spec* imp*)
|
|
(define (idsyn? x) (symbol? (syntax->datum x)))
|
|
(define (dup-error name)
|
|
(syntax-violation 'import "two imports with different bindings" name))
|
|
(define (merge-substs s subst)
|
|
(define (insert-to-subst a subst)
|
|
(let ((name (car a)) (label (cdr a)))
|
|
(cond
|
|
((assq name subst) =>
|
|
(lambda (x)
|
|
(cond
|
|
((eq? (cdr x) label) subst)
|
|
(else (dup-error name)))))
|
|
(else
|
|
(cons a subst)))))
|
|
(cond
|
|
((null? s) subst)
|
|
(else
|
|
(insert-to-subst (car s)
|
|
(merge-substs (cdr s) subst)))))
|
|
(define (exclude* sym* subst)
|
|
(define (exclude sym subst)
|
|
(cond
|
|
((null? subst)
|
|
(syntax-violation 'import "cannot rename unbound identifier" sym))
|
|
((eq? sym (caar subst))
|
|
(values (cdar subst) (cdr subst)))
|
|
(else
|
|
(let ((a (car subst)))
|
|
(let-values (((old subst) (exclude sym (cdr subst))))
|
|
(values old (cons a subst)))))))
|
|
(cond
|
|
((null? sym*) (values '() subst))
|
|
(else
|
|
(let-values (((old subst) (exclude (car sym*) subst)))
|
|
(let-values (((old* subst) (exclude* (cdr sym*) subst)))
|
|
(values (cons old old*) subst))))))
|
|
(define (find* sym* subst)
|
|
(map (lambda (x)
|
|
(cond
|
|
((assq x subst) => cdr)
|
|
(else (syntax-violation 'import "cannot find identifier" x))))
|
|
sym*))
|
|
(define (rem* sym* subst)
|
|
(let f ((subst subst))
|
|
(cond
|
|
((null? subst) '())
|
|
((memq (caar subst) sym*) (f (cdr subst)))
|
|
(else (cons (car subst) (f (cdr subst)))))))
|
|
(define (remove-dups ls)
|
|
(cond
|
|
((null? ls) '())
|
|
((memq (car ls) (cdr ls)) (remove-dups (cdr ls)))
|
|
(else (cons (car ls) (remove-dups (cdr ls))))))
|
|
(define (parse-library-name spec)
|
|
(define (subversion? x)
|
|
(and (integer? x) (exact? x) (>= x 0)))
|
|
(define (subversion-pred x*)
|
|
(syntax-match x* ()
|
|
[n (subversion? (syntax->datum n))
|
|
(lambda (x) (= x (syntax->datum n)))]
|
|
[(p? sub* ...) (eq? (syntax->datum p?) 'and)
|
|
(let ([p* (map subversion-pred sub*)])
|
|
(lambda (x)
|
|
(for-all (lambda (p) (p x)) p*)))]
|
|
[(p? sub* ...) (eq? (syntax->datum p?) 'or)
|
|
(let ([p* (map subversion-pred sub*)])
|
|
(lambda (x)
|
|
(exists (lambda (p) (p x)) p*)))]
|
|
[(p? sub) (eq? (syntax->datum p?) 'not)
|
|
(let ([p (subversion-pred sub)])
|
|
(lambda (x)
|
|
(not (p x))))]
|
|
[(p? n)
|
|
(and (eq? (syntax->datum p?) '<=) (subversion? (syntax->datum n)))
|
|
(lambda (x) (<= x (syntax->datum n)))]
|
|
[(p? n) (and (eq? (syntax->datum p?) '>=) (subversion? n))
|
|
(lambda (x) (>= x (syntax->datum n)))]
|
|
[_ (syntax-violation 'import "invalid sub-version spec" spec x*)]))
|
|
(define (version-pred x*)
|
|
(syntax-match x* ()
|
|
[() (lambda (x) #t)]
|
|
[(c ver* ...) (eq? (syntax->datum c) 'and)
|
|
(let ([p* (map version-pred ver*)])
|
|
(lambda (x)
|
|
(for-all (lambda (p) (p x)) p*)))]
|
|
[(c ver* ...) (eq? (syntax->datum c) 'or)
|
|
(let ([p* (map version-pred ver*)])
|
|
(lambda (x)
|
|
(exists (lambda (p) (p x)) p*)))]
|
|
[(c ver) (eq? (syntax->datum c) 'not)
|
|
(let ([p (version-pred ver)])
|
|
(lambda (x) (not (p x))))]
|
|
[(sub* ...)
|
|
(let ([p* (map subversion-pred sub*)])
|
|
(lambda (x)
|
|
(let f ([p* p*] [x x])
|
|
(cond
|
|
[(null? p*) #t]
|
|
[(null? x) #f]
|
|
[else
|
|
(and ((car p*) (car x))
|
|
(f (cdr p*) (cdr x*)))]))))]
|
|
[_ (syntax-violation 'import "invalid version spec" spec x*)]))
|
|
(let f ([x spec])
|
|
(syntax-match x ()
|
|
[((version-spec* ...))
|
|
(values '() (version-pred version-spec*))]
|
|
[(x . x*) (idsyn? x)
|
|
(let-values ([(name pred) (f x*)])
|
|
(values (cons (syntax->datum x) name) pred))]
|
|
[() (values '() (lambda (x) #t))]
|
|
[_ (stx-error spec "invalid import spec")])))
|
|
(define (import-library spec*)
|
|
(let-values ([(name pred) (parse-library-name spec*)])
|
|
(when (null? name)
|
|
(syntax-violation 'import "empty library name" spec*))
|
|
(let ((lib (find-library-by-name name)))
|
|
(unless lib
|
|
(syntax-violation 'import
|
|
"cannot find library with required name"
|
|
name))
|
|
(unless (pred (library-version lib))
|
|
(syntax-violation 'import
|
|
"library does not satisfy version specification"
|
|
spec* lib))
|
|
((imp-collector) lib)
|
|
(library-subst lib))))
|
|
(define (get-import spec)
|
|
(syntax-match spec ()
|
|
((x x* ...)
|
|
(not (memq (syntax->datum x) '(for rename except only prefix library)))
|
|
(import-library (cons x x*)))
|
|
((rename isp (old* new*) ...)
|
|
(and (eq? (syntax->datum rename) 'rename)
|
|
(for-all idsyn? old*)
|
|
(for-all idsyn? new*))
|
|
(let ((subst (get-import isp))
|
|
[old* (map syntax->datum old*)]
|
|
[new* (map syntax->datum new*)])
|
|
;;; rewrite this to eliminate find* and rem* and merge
|
|
(let ((old-label* (find* old* subst)))
|
|
(let ((subst (rem* old* subst)))
|
|
;;; FIXME: make sure map is valid
|
|
(merge-substs (map cons new* old-label*) subst)))))
|
|
((except isp sym* ...)
|
|
(and (eq? (syntax->datum except) 'except) (for-all idsyn? sym*))
|
|
(let ((subst (get-import isp)))
|
|
(rem* (map syntax->datum sym*) subst)))
|
|
((only isp sym* ...)
|
|
(and (eq? (syntax->datum only) 'only) (for-all idsyn? sym*))
|
|
(let ((subst (get-import isp))
|
|
[sym* (map syntax->datum sym*)])
|
|
(let ((sym* (remove-dups sym*)))
|
|
(let ((lab* (find* sym* subst)))
|
|
(map cons sym* lab*)))))
|
|
((prefix isp p)
|
|
(and (eq? (syntax->datum prefix) 'prefix) (idsyn? p))
|
|
(let ((subst (get-import isp))
|
|
(prefix (symbol->string (syntax->datum p))))
|
|
(map
|
|
(lambda (x)
|
|
(cons
|
|
(string->symbol
|
|
(string-append prefix
|
|
(symbol->string (car x))))
|
|
(cdr x)))
|
|
subst)))
|
|
((library (spec* ...)) (eq? (syntax->datum library) 'library)
|
|
(import-library spec*))
|
|
((for isp . rest)
|
|
(eq? (syntax->datum for) 'for)
|
|
(get-import isp))
|
|
(spec (syntax-violation 'import "invalid import spec" spec))))
|
|
(define (add-imports! imp h)
|
|
(let ([subst (get-import imp)])
|
|
(for-each
|
|
(lambda (x)
|
|
(let ([name (car x)] [label (cdr x)])
|
|
(cond
|
|
[(hashtable-ref h name #f) =>
|
|
(lambda (l)
|
|
(unless (eq? l label)
|
|
(dup-error name)))]
|
|
[else
|
|
(hashtable-set! h name label)])))
|
|
subst)))
|
|
(let f ((imp* imp*) (h (make-eq-hashtable)))
|
|
(cond
|
|
((null? imp*)
|
|
(hashtable-entries h))
|
|
(else
|
|
(add-imports! (car imp*) h)
|
|
(f (cdr imp*) h)))))
|
|
|
|
;;; a top rib is constructed as follows:
|
|
;;; given a subst: name* -> label*,
|
|
;;; generate a rib containing:
|
|
;;; - name* as the rib-sym*,
|
|
;;; - a list of top-mark* as the rib-mark**
|
|
;;; - label* as the rib-label*
|
|
;;; so, a name in a top rib maps to its label if and only if
|
|
;;; its set of marks is top-mark*.
|
|
(define (make-top-rib names labels)
|
|
(let ((rib (make-empty-rib)))
|
|
(vector-for-each
|
|
(lambda (name label)
|
|
(unless (symbol? name)
|
|
(error 'make-top-rib "BUG: not a symbol" name))
|
|
(extend-rib! rib (make-stx name top-mark* '() '()) label))
|
|
names labels)
|
|
rib))
|
|
|
|
(define (make-collector)
|
|
(let ((ls '()))
|
|
(case-lambda
|
|
(() ls)
|
|
((x) (set! ls (set-cons x ls))))))
|
|
|
|
(define inv-collector
|
|
(make-parameter
|
|
(lambda args
|
|
(assertion-violation 'inv-collector "BUG: not initialized"))
|
|
(lambda (x)
|
|
(unless (procedure? x)
|
|
(assertion-violation 'inv-collector "BUG: not a procedure" x))
|
|
x)))
|
|
|
|
(define vis-collector
|
|
(make-parameter
|
|
(lambda args
|
|
(assertion-violation 'vis-collector "BUG: not initialized"))
|
|
(lambda (x)
|
|
(unless (procedure? x)
|
|
(assertion-violation 'vis-collector "BUG: not a procedure" x))
|
|
x)))
|
|
|
|
(define imp-collector
|
|
(make-parameter
|
|
(lambda args
|
|
(assertion-violation 'imp-collector "BUG: not initialized"))
|
|
(lambda (x)
|
|
(unless (procedure? x)
|
|
(assertion-violation 'imp-collector "BUG: not a procedure" x))
|
|
x)))
|
|
|
|
(define chi-library-internal
|
|
(lambda (e* rib top?)
|
|
(let-values (((e* r mr lex* rhs* mod** _kwd*)
|
|
(chi-body* e* '() '() '() '() '() '() rib top?)))
|
|
(values (append (apply append (reverse mod**)) e*)
|
|
r mr (reverse lex*) (reverse rhs*)))))
|
|
|
|
|
|
(define chi-interaction-expr
|
|
(lambda (e rib r)
|
|
(let-values (((e* r mr lex* rhs* mod** _kwd*)
|
|
(chi-body* (list e) r r '() '() '() '() rib #t)))
|
|
(let ([e* (expand-interaction-rhs*/init*
|
|
(reverse lex*) (reverse rhs*)
|
|
(append (apply append (reverse mod**)) e*)
|
|
r mr)])
|
|
(let ([e (cond
|
|
[(null? e*) (build-void)]
|
|
[(null? (cdr e*)) (car e*)]
|
|
[else (build-sequence no-source e*)])])
|
|
(values e r))))))
|
|
|
|
(define library-body-expander
|
|
(lambda (exp* imp* b* top?)
|
|
(define itc (make-collector))
|
|
(parameterize ((imp-collector itc)
|
|
(top-level-context #f))
|
|
(let-values (((exp-int* exp-ext*) (parse-exports exp*)))
|
|
(let-values (((subst-names subst-labels)
|
|
(parse-import-spec* imp*)))
|
|
(let ((rib (make-top-rib subst-names subst-labels)))
|
|
(let ((b* (map (lambda (x)
|
|
(mkstx x top-mark* (list rib) '()))
|
|
b*))
|
|
(rtc (make-collector))
|
|
(vtc (make-collector)))
|
|
(parameterize ((inv-collector rtc)
|
|
(vis-collector vtc))
|
|
(let-values (((init* r mr lex* rhs*)
|
|
(chi-library-internal b* rib top?)))
|
|
(seal-rib! rib)
|
|
(let* ((init* (chi-expr* init* r mr))
|
|
(rhs* (chi-rhs* rhs* r mr)))
|
|
(unseal-rib! rib)
|
|
(let ((loc* (map gen-global lex*))
|
|
(export-subst (make-export-subst exp-int* exp-ext* rib)))
|
|
(define errstr
|
|
"attempt to export mutated variable")
|
|
(let-values (((export-env global* macro*)
|
|
(make-export-env/macros lex* loc* r)))
|
|
(for-each
|
|
(lambda (s)
|
|
(let ([name (car s)] [label (cdr s)])
|
|
(let ([p (assq label export-env)])
|
|
(when p
|
|
(let ([b (cdr p)])
|
|
(let ([type (car b)])
|
|
(when (eq? type 'mutable)
|
|
(syntax-violation 'export
|
|
errstr name))))))))
|
|
export-subst)
|
|
(let ((invoke-body
|
|
(build-library-letrec* no-source
|
|
lex* loc* rhs*
|
|
(if (null? init*)
|
|
(build-void)
|
|
(build-sequence no-source init*))))
|
|
;(invoke-body
|
|
; (build-letrec* no-source lex* rhs*
|
|
; (build-exports global* init*)))
|
|
(invoke-definitions
|
|
(map build-global-define (map cdr global*))))
|
|
(values
|
|
(itc) (rtc) (vtc)
|
|
(build-sequence no-source
|
|
(append invoke-definitions
|
|
(list invoke-body)))
|
|
macro* export-subst export-env))))))))))))))
|
|
|
|
(define core-library-expander
|
|
(lambda (e)
|
|
(let-values (((name* exp* imp* b*) (parse-library e)))
|
|
(let-values (((name ver) (parse-library-name name*)))
|
|
(let-values (((imp* invoke-req* visit-req* invoke-code
|
|
visit-code export-subst export-env)
|
|
(library-body-expander exp* imp* b* #f)))
|
|
(values name ver imp* invoke-req* visit-req*
|
|
invoke-code visit-code export-subst
|
|
export-env))))))
|
|
|
|
(define (parse-top-level-program e*)
|
|
(syntax-match e* ()
|
|
(((import imp* ...) b* ...)
|
|
(eq? (syntax->datum import) 'import)
|
|
(values imp* b*))
|
|
(((import . x) . y)
|
|
(eq? (syntax->datum import) 'import)
|
|
(syntax-violation 'expander
|
|
"invalid syntax of top-level program" (syntax-car e*)))
|
|
(_
|
|
(assertion-violation 'expander
|
|
"top-level program is missing an (import ---) clause"))))
|
|
|
|
(define top-level-expander
|
|
(lambda (e*)
|
|
(let-values (((imp* b*) (parse-top-level-program e*)))
|
|
(let-values (((imp* invoke-req* visit-req* invoke-code
|
|
visit-code export-subst export-env)
|
|
(library-body-expander '() imp* b* #t)))
|
|
(values invoke-req* invoke-code)))))
|
|
|
|
;;; An env record encapsulates a substitution and a set of
|
|
;;; libraries.
|
|
(define-record env (names labels itc)
|
|
(lambda (x p)
|
|
(display "#<environment>" p)))
|
|
|
|
(define-record interaction-env (rib r locs)
|
|
(lambda (x p)
|
|
(display "#<environment>" p)))
|
|
|
|
(define environment?
|
|
(lambda (x) (or (env? x) (interaction-env? x))))
|
|
|
|
;;; This is R6RS's environment. It parses the import specs
|
|
;;; and constructs an env record that can be used later by
|
|
;;; eval and/or expand.
|
|
(define environment
|
|
(lambda imp*
|
|
(let ([itc (make-collector)])
|
|
(parameterize ([imp-collector itc])
|
|
(let-values (((subst-names subst-labels)
|
|
(parse-import-spec* imp*)))
|
|
(make-env subst-names subst-labels itc))))))
|
|
|
|
;;; R6RS's null-environment and scheme-report-environment are
|
|
;;; constructed simply using the corresponding libraries.
|
|
(define (null-environment n)
|
|
(unless (eqv? n 5)
|
|
(assertion-violation 'null-environment "not 5" n))
|
|
(environment '(psyntax null-environment-5)))
|
|
(define (scheme-report-environment n)
|
|
(unless (eqv? n 5)
|
|
(assertion-violation 'scheme-report-environment "not 5" n))
|
|
(environment '(psyntax scheme-report-environment-5)))
|
|
|
|
;;; The expand procedure is the interface to the internal expression
|
|
;;; expander (chi-expr). It takes an expression and an environment.
|
|
;;; It returns two values: The resulting core-expression and a list of
|
|
;;; libraries that must be invoked before evaluating the core expr.
|
|
(define expand
|
|
(lambda (x env)
|
|
(cond
|
|
[(env? env)
|
|
(let ((rib (make-top-rib (env-names env) (env-labels env))))
|
|
(let ((x (mkstx x top-mark* (list rib) '()))
|
|
(itc (env-itc env))
|
|
(rtc (make-collector))
|
|
(vtc (make-collector)))
|
|
(let ((x
|
|
(parameterize ((inv-collector rtc)
|
|
(vis-collector vtc)
|
|
(imp-collector itc))
|
|
(chi-expr x '() '()))))
|
|
(seal-rib! rib)
|
|
(values x (rtc)))))]
|
|
[(interaction-env? env)
|
|
(let ([rib (interaction-env-rib env)]
|
|
[r (interaction-env-r env)]
|
|
[rtc (make-collector)])
|
|
(let ([x (make-stx x top-mark* (list rib) '())])
|
|
(let-values ([(e r^)
|
|
(parameterize ([top-level-context env]
|
|
[inv-collector rtc]
|
|
[vis-collector (make-collector)]
|
|
[imp-collector (make-collector)])
|
|
(chi-interaction-expr x rib r))])
|
|
(set-interaction-env-r! env r^)
|
|
(values e (rtc)))))]
|
|
[else
|
|
(assertion-violation 'expand "not an environment" env)])))
|
|
|
|
;;; This is R6RS's eval. It takes an expression and an environment,
|
|
;;; expands the expression, invokes its invoke-required libraries and
|
|
;;; evaluates its expanded core form.
|
|
(define eval
|
|
(lambda (x env)
|
|
(unless (environment? env)
|
|
(error 'eval "not an environment" env))
|
|
(let-values (((x invoke-req*) (expand x env)))
|
|
(for-each invoke-library invoke-req*)
|
|
(eval-core (expanded->core x)))))
|
|
|
|
|
|
;;; Given a (library . _) s-expression, library-expander expands
|
|
;;; it to core-form, registers it with the library manager, and
|
|
;;; returns its invoke-code, visit-code, subst and env.
|
|
(define library-expander
|
|
(case-lambda
|
|
[(x filename)
|
|
(define (build-visit-code macro*)
|
|
(if (null? macro*)
|
|
(build-void)
|
|
(build-sequence no-source
|
|
(map (lambda (x)
|
|
(let ((loc (car x)) (src (cddr x)))
|
|
(build-global-assignment no-source loc src)))
|
|
macro*))))
|
|
(define (visit! macro*)
|
|
(for-each (lambda (x)
|
|
(let ((loc (car x)) (proc (cadr x)))
|
|
(set-symbol-value! loc proc)))
|
|
macro*))
|
|
(let-values (((name ver imp* inv* vis*
|
|
invoke-code macro* export-subst export-env)
|
|
(core-library-expander x)))
|
|
(let ((id (gensym))
|
|
(name name)
|
|
(ver ver)
|
|
(imp* (map library-spec imp*))
|
|
(vis* (map library-spec vis*))
|
|
(inv* (map library-spec inv*))
|
|
(visit-proc (lambda () (visit! macro*)))
|
|
(invoke-proc
|
|
(lambda () (eval-core (expanded->core invoke-code))))
|
|
(visit-code (build-visit-code macro*))
|
|
(invoke-code invoke-code))
|
|
(install-library id name ver
|
|
imp* vis* inv* export-subst export-env
|
|
visit-proc invoke-proc
|
|
visit-code invoke-code
|
|
#t filename)
|
|
(values id name ver imp* vis* inv*
|
|
invoke-code visit-code
|
|
export-subst export-env)))]
|
|
[(x) (library-expander x #f)]))
|
|
|
|
;;; when bootstrapping the system, visit-code is not (and cannot
|
|
;;; be) be used in the "next" system. So, we drop it.
|
|
(define (boot-library-expand x)
|
|
(let-values (((id name ver imp* vis* inv*
|
|
invoke-code visit-code export-subst export-env)
|
|
(library-expander x)))
|
|
(values invoke-code export-subst export-env)))
|
|
|
|
(define (rev-map-append f ls ac)
|
|
(cond
|
|
((null? ls) ac)
|
|
(else
|
|
(rev-map-append f (cdr ls)
|
|
(cons (f (car ls)) ac)))))
|
|
|
|
(define build-exports
|
|
(lambda (lex*+loc* init*)
|
|
(build-sequence no-source
|
|
(cons (build-void)
|
|
(rev-map-append
|
|
(lambda (x)
|
|
(build-global-assignment no-source (cdr x) (car x)))
|
|
lex*+loc*
|
|
init*)))))
|
|
|
|
(define (make-export-subst int* ext* rib)
|
|
(map
|
|
(lambda (int ext)
|
|
(let* ((id (mkstx int top-mark* (list rib) '()))
|
|
(label (id->label id)))
|
|
(unless label
|
|
(stx-error id "cannot export unbound identifier"))
|
|
(cons ext label)))
|
|
int* ext*))
|
|
|
|
(define (make-export-env/macros lex* loc* r)
|
|
(define (lookup x)
|
|
(let f ([x x] [lex* lex*] [loc* loc*])
|
|
(cond
|
|
[(pair? lex*)
|
|
(if (eq? x (car lex*))
|
|
(car loc*)
|
|
(f x (cdr lex*) (cdr loc*)))]
|
|
[else (assertion-violation 'lookup-make-export "BUG")])))
|
|
(let f ((r r) (env '()) (global* '()) (macro* '()))
|
|
(cond
|
|
((null? r) (values env global* macro*))
|
|
(else
|
|
(let ((x (car r)))
|
|
(let ((label (car x)) (b (cdr x)))
|
|
(case (binding-type b)
|
|
((lexical)
|
|
(let ([v (binding-value b)])
|
|
(let ((loc (lookup (lexical-var v)))
|
|
(type (if (lexical-mutable? v)
|
|
'mutable
|
|
'global)))
|
|
(f (cdr r)
|
|
(cons (cons* label type loc) env)
|
|
(cons (cons (lexical-var v) loc) global*)
|
|
macro*))))
|
|
((local-macro)
|
|
(let ((loc (gensym)))
|
|
(f (cdr r)
|
|
(cons (cons* label 'global-macro loc) env)
|
|
global*
|
|
(cons (cons loc (binding-value b)) macro*))))
|
|
((local-macro!)
|
|
(let ((loc (gensym)))
|
|
(f (cdr r)
|
|
(cons (cons* label 'global-macro! loc) env)
|
|
global*
|
|
(cons (cons loc (binding-value b)) macro*))))
|
|
(($rtd $module) (f (cdr r) (cons x env) global* macro*))
|
|
(else
|
|
(assertion-violation 'expander "BUG: do not know how to export"
|
|
(binding-type b) (binding-value b))))))))))
|
|
|
|
(define generate-temporaries
|
|
(lambda (ls)
|
|
(syntax-match ls ()
|
|
((ls ...)
|
|
(map (lambda (x)
|
|
(make-stx
|
|
(let ([x (syntax->datum x)])
|
|
(cond
|
|
[(or (symbol? x) (string? x))
|
|
(gensym x)]
|
|
[else (gensym 't)]))
|
|
top-mark* '() '()))
|
|
ls))
|
|
(_
|
|
(assertion-violation 'generate-temporaries "not a list")))))
|
|
|
|
(define free-identifier=?
|
|
(lambda (x y)
|
|
(if (id? x)
|
|
(if (id? y)
|
|
(free-id=? x y)
|
|
(assertion-violation 'free-identifier=? "not an identifier" y))
|
|
(assertion-violation 'free-identifier=? "not an identifier" x))))
|
|
|
|
(define bound-identifier=?
|
|
(lambda (x y)
|
|
(if (id? x)
|
|
(if (id? y)
|
|
(bound-id=? x y)
|
|
(assertion-violation 'bound-identifier=? "not an identifier" y))
|
|
(assertion-violation 'bound-identifier=? "not an identifier" x))))
|
|
|
|
(define (extract-position-condition x)
|
|
(define-condition-type &source-information &condition
|
|
make-source-condition source-condition?
|
|
(file-name source-filename)
|
|
(character source-character))
|
|
(if (stx? x)
|
|
(let ([x (stx-expr x)])
|
|
(if (annotation? x)
|
|
(let ([src (annotation-source x)])
|
|
(if (pair? src)
|
|
(make-source-condition (car src) (cdr src))
|
|
(condition)))
|
|
(condition)))
|
|
(condition)))
|
|
|
|
(define syntax-error
|
|
(lambda (x . args)
|
|
(unless (for-all string? args)
|
|
(assertion-violation 'syntax-error "invalid argument" args))
|
|
(raise
|
|
(condition
|
|
(make-message-condition
|
|
(if (null? args)
|
|
"invalid syntax"
|
|
(apply string-append args)))
|
|
(make-syntax-violation
|
|
(syntax->datum x)
|
|
#f)
|
|
(extract-position-condition x)
|
|
(extract-trace x)))))
|
|
|
|
(define (extract-trace x)
|
|
(define-condition-type &trace &condition
|
|
make-trace trace?
|
|
(form trace-form))
|
|
(let f ([x x])
|
|
(cond
|
|
[(stx? x)
|
|
(apply condition
|
|
(make-trace x)
|
|
(map f (stx-ae* x)))]
|
|
[(annotation? x)
|
|
(make-trace (make-stx x '() '() '()))]
|
|
[else (condition)])))
|
|
|
|
|
|
(define syntax-violation*
|
|
(lambda (who msg form condition-object)
|
|
(unless (string? msg)
|
|
(assertion-violation 'syntax-violation "message is not a string" msg))
|
|
(let ([who
|
|
(cond
|
|
[(or (string? who) (symbol? who)) who]
|
|
[(not who)
|
|
(syntax-match form ()
|
|
[id (id? id) (syntax->datum id)]
|
|
[(id . rest) (id? id) (syntax->datum id)]
|
|
[_ #f])]
|
|
[else
|
|
(assertion-violation 'syntax-violation
|
|
"invalid who argument" who)])])
|
|
(raise
|
|
(condition
|
|
(if who
|
|
(make-who-condition who)
|
|
(condition))
|
|
(make-message-condition msg)
|
|
condition-object
|
|
(extract-position-condition form)
|
|
(extract-trace form))))))
|
|
|
|
(define syntax-violation
|
|
(case-lambda
|
|
[(who msg form) (syntax-violation who msg form #f)]
|
|
[(who msg form subform)
|
|
(syntax-violation* who msg form
|
|
(make-syntax-violation
|
|
(syntax->datum form)
|
|
(syntax->datum subform)))]))
|
|
|
|
(define identifier? (lambda (x) (id? x)))
|
|
|
|
(define datum->syntax
|
|
(lambda (id datum)
|
|
(if (id? id)
|
|
(datum->stx id datum)
|
|
(assertion-violation 'datum->syntax "not an identifier" id))))
|
|
|
|
(define syntax->datum
|
|
(lambda (x) (stx->datum x)))
|
|
|
|
(define compile-r6rs-top-level
|
|
(lambda (x*)
|
|
(let-values (((lib* invoke-code) (top-level-expander x*)))
|
|
(lambda ()
|
|
(for-each invoke-library lib*)
|
|
(eval-core (expanded->core invoke-code))))))
|
|
|
|
(define interaction-environment
|
|
(let ([the-env #f])
|
|
(lambda ()
|
|
(or the-env
|
|
(let ([lib (find-library-by-name '(ikarus))]
|
|
[rib (make-empty-rib)])
|
|
(let ([subst (library-subst lib)])
|
|
(set-rib-sym*! rib (map car subst))
|
|
(set-rib-mark**! rib
|
|
(map (lambda (x) top-mark*) subst))
|
|
(set-rib-label*! rib (map cdr subst)))
|
|
(let ([env (make-interaction-env rib '() '())])
|
|
(set! the-env env)
|
|
env))))))
|
|
|
|
(define top-level-context (make-parameter #f))
|
|
|
|
;;; register the expander with the library manager
|
|
(current-library-expander library-expander))
|
|
|
|
|
|
|