scsh-0.6/scheme/bcomp/module-language.scm

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; Copyright (c) 1993-2001 by Richard Kelsey and Jonathan Rees. See file COPYING.
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; The DEFINE-INTERFACE and DEFINE-STRUCTURE macros.
(define-syntax def
(syntax-rules ()
((def (?name . ?args) ?body ...)
(really-def () ?name (lambda ?args ?body ...)))
((def ?name ...)
(really-def () ?name ...))))
(define-syntax really-def
(syntax-rules ()
((really-def (?name ...) ?exp)
(define-multiple (?name ...)
(begin (verify-later! (lambda () ?name))
...
?exp)))
((really-def (?name ...) ?name1 ?etc ...)
(really-def (?name ... ?name1) ?etc ...))))
(define-syntax define-multiple
(syntax-rules ()
((define-multiple (?name) ?exp)
(define ?name (note-name! ?exp '?name)))
((define-multiple (?name ...) ?exp)
(begin (define ?name #f)
...
(let ((frob (lambda things
(begin (set! ?name
(note-name! (car things) '?name))
(set! things (cdr things)))
...)))
(call-with-values (lambda () ?exp) frob))))))
; Interfaces
; <definition> ::= (define-interface <name> <int>)
; <int> ::= <name> | (export <item> ...) | (compound-interface <int> ...)
(define-syntax define-interface
(syntax-rules ()
((define-interface ?name ?int)
(def ?name ?int))))
(define-syntax compound-interface
(syntax-rules ()
((compound-interface ?int ...)
(make-compound-interface #f ?int ...))))
; <item> ::= <name> | (<name> <type>) | ((<name> ...) <type>)
(define-syntax export
(lambda (e r c)
(let ((items (cdr e)))
(let loop ((items items)
(plain '())
(others '()))
(if (null? items)
`(,(r 'make-simple-interface)
#f
(,(r 'list) (,(r 'quote) ,(list (reverse plain)
':undeclared))
,@(reverse others)))
(let ((item (car items)))
(if (pair? item)
(loop (cdr items)
plain
(cons `(,(r 'list) (,(r 'quote) ,(car item))
,(cadr item))
others))
(loop (cdr items)
(cons item plain)
others)))))))
(make-simple-interface list quote value))
; Structures
(define-syntax define-structure
(syntax-rules ()
((define-structure ?name ?int ?clause1 ?clause ...)
(def ?name (structure ?int ?clause1 ?clause ...)))
;; For compatibility. Use DEF instead.
((define-structure ?name ?exp)
(def ?name ?exp))))
(define-syntax define-structures
(syntax-rules ()
((define-structures ((?name ?int) ...)
?clause ...)
(def ?name ... (structures (?int ...) ?clause ...)))))
(define-syntax structure
(syntax-rules ()
((structure ?int ?clause ...)
(structures (?int) ?clause ...))))
(define-syntax structures
(syntax-rules ()
((structures (?int ...) ?clause ...)
(let ((p (a-package #f ?clause ...)))
(values (make-structure p (lambda () ?int))
...)))))
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(define-syntax modify
(syntax-rules ()
((modify ?struct ?command ...)
(make-modified-structure ?struct '(?command ...)))))
; Two handy shorthands for MODIFY.
(define-syntax subset
(syntax-rules ()
((restrict struct (name ...))
(modify struct (expose name ...)))))
(define-syntax with-prefix
(syntax-rules ()
((with-prefix struct the-prefix)
(modify struct (prefix the-prefix)))))
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; Packages
(define-syntax a-package
(let ()
(define (parse-package-clauses clauses rename compare)
(let ((%open (rename 'open))
(%access (rename 'access))
(%for-syntax (rename 'for-syntax)))
(let loop ((clauses clauses)
(opens '())
(accesses '())
(for-syntaxes '())
(others '()))
(cond ((null? clauses)
(values opens accesses for-syntaxes (reverse others)))
((not (list? (car clauses)))
(display "Ignoring invalid define-structures clause")
(newline)
(write (car clauses)) (newline)
(loop (cdr clauses)
opens
accesses
for-syntaxes
others))
(else
(let ((keyword (caar clauses)))
(cond ((compare keyword %open)
(loop (cdr clauses)
(append opens (cdar clauses))
accesses
for-syntaxes
others))
((compare keyword %access)
(loop (cdr clauses)
opens
(append (cdar clauses) accesses)
for-syntaxes
others))
((compare keyword %for-syntax)
(loop (cdr clauses)
opens
accesses
(append (cdar clauses) for-syntaxes)
others))
(else
(loop (cdr clauses)
opens
accesses
for-syntaxes
(cons (car clauses) others))))))))))
(lambda (form rename compare)
(let ((names (cadr form))
(clauses (cddr form)))
(call-with-values (lambda ()
(parse-package-clauses clauses rename compare))
(lambda (opens accesses for-syntaxes others)
(let ((%make (rename 'make-a-package))
(%lambda (rename 'lambda))
(%cons (rename 'cons))
(%list (rename 'list))
(%quote (rename 'quote))
(%a-package (rename 'a-package))
(%file-name (rename '%file-name%)))
`(,%make (,%lambda () (,%list ,@opens))
(,%lambda ()
(,%list ,@(map (lambda (a)
`(,%cons (,%quote ,a) ,a))
accesses)))
(,(string->symbol ".make-reflective-tower.")
(,%quote ,for-syntaxes)
(,%quote ,names)) ; for discloser
(,%file-name)
(,%quote ,others)
(,%quote ,names))))))))
(cons lambda list make-a-package quote make-reflective-tower %file-name%))
(define-syntax receive
(syntax-rules ()
((receive (?var ...) ?producer . ?body)
(call-with-values (lambda () ?producer)
(lambda (?var ...)
(note-name! ?var '?var) ...
(let () . ?body))))))
; (DEFINE-REFLECTIVE-TOWER-MAKER <proc>)
; <proc> should be an expression that evaluates to a procedure of
; two arguments. The first argument is a list of DEFINE-STRUCTURE
; clauses, and the second is some identifying information (no
; semantic content). The procedure should return a "reflective
; tower", which is a pair (<eval-proc> . <env>). To evaluate the
; right-hand side of a DEFINE-SYNTAX (LET-SYNTAX, etc.) form,
; <eval-proc> is called on the right-hand side and <env>.
; Got that?
(define-syntax define-reflective-tower-maker
(lambda (e r c)
`(,(r 'define) ,(string->symbol ".make-reflective-tower.") ,(cadr e)))
(define))
(define-syntax export-reflective-tower-maker
(lambda (e r c)
`(,(r 'export) ,(string->symbol ".make-reflective-tower.")))
(export))
; Modules = package combinators...
(define-syntax define-module
(syntax-rules ()
((define-module (?name . ?args) ?body ...)
(def ?name (lambda ?args ?body ...)))))