/usr/share/elk/srfi-89.scm is in anfo 0.98-5.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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; http://srfi.schemers.org/srfi-89/srfi-89.html, therefore:
;
; Copyright (C) Marc Feeley (2006). All Rights Reserved.
; 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.
(require 'srfi-88)
;------------------------------------------------------------------------------
; Macro expander for define*.
(define-macro (define* pattern . body)
(if (pair? pattern)
`(define ,(car pattern)
(lambda* ,(cdr pattern) ,@body))
`(define ,pattern ,@body)))
; Macro expander for lambda*.
(define-macro (lambda* formals . body)
;------------------------------------------------------------------------------
; Procedures needed at expansion time.
(define (parse-formals formals)
(define (variable? x) (symbol? x))
(define (required-positional? x)
(variable? x))
(define (optional-positional? x)
(and (pair? x)
(pair? (cdr x))
(null? (cddr x))
(variable? (car x))))
(define (required-named? x)
(and (pair? x)
(pair? (cdr x))
(null? (cddr x))
(keyword? (car x))
(variable? (cadr x))))
(define (optional-named? x)
(and (pair? x)
(pair? (cdr x))
(pair? (cddr x))
(null? (cdddr x))
(keyword? (car x))
(variable? (cadr x))))
(define (named? x)
(or (required-named? x)
(optional-named? x)))
(define (duplicates? lst)
(cond ((null? lst)
#f)
((memq (car lst) (cdr lst))
#t)
(else
(duplicates? (cdr lst)))))
(define (parse-positional-section lst cont)
(let loop1 ((lst lst) (rev-reqs '()))
(if (and (pair? lst)
(required-positional? (car lst)))
(loop1 (cdr lst) (cons (car lst) rev-reqs))
(let loop2 ((lst lst) (rev-opts '()))
(if (and (pair? lst)
(optional-positional? (car lst)))
(loop2 (cdr lst) (cons (car lst) rev-opts))
(cont lst (cons (reverse rev-reqs) (reverse rev-opts))))))))
(define (parse-named-section lst cont)
(let loop ((lst lst) (rev-named '()))
(if (and (pair? lst)
(named? (car lst)))
(loop (cdr lst) (cons (car lst) rev-named))
(cont lst (reverse rev-named)))))
(define (parse-rest lst
positional-before-named?
positional-reqs/opts
named)
(if (null? lst)
(parse-end positional-before-named?
positional-reqs/opts
named
#f)
(if (variable? lst)
(parse-end positional-before-named?
positional-reqs/opts
named
lst)
(error "syntax error in formal parameter list"))))
(define (parse-end positional-before-named?
positional-reqs/opts
named
rest)
(let ((positional-reqs (car positional-reqs/opts))
(positional-opts (cdr positional-reqs/opts)))
(let ((vars
(append positional-reqs
(map car positional-opts)
(map cadr named)
(if rest (list rest) '())))
(keys
(map car named)))
(cond ((duplicates? vars)
(error "duplicate variable in formal parameter list"))
((duplicates? keys)
(error "duplicate keyword in formal parameter list"))
(else
(list positional-before-named?
positional-reqs
positional-opts
named
rest))))))
(define (parse lst)
(if (and (pair? lst)
(named? (car lst)))
(parse-named-section
lst
(lambda (lst named)
(parse-positional-section
lst
(lambda (lst positional-reqs/opts)
(parse-rest lst
#f
positional-reqs/opts
named)))))
(parse-positional-section
lst
(lambda (lst positional-reqs/opts)
(parse-named-section
lst
(lambda (lst named)
(parse-rest lst
#t
positional-reqs/opts
named)))))))
(parse formals))
(define (expand-lambda* formals body)
(define (range lo hi)
(if (< lo hi)
(cons lo (range (+ lo 1) hi))
'()))
(define (expand positional-before-named?
positional-reqs
positional-opts
named
rest)
(if (and (null? positional-opts) (null? named)) ; direct R5RS equivalent
`(lambda ,(append positional-reqs (or rest '())) ,@body)
(let ()
(define utility-fns
`(,@(if (or positional-before-named?
(null? positional-reqs))
`()
`(($req
(lambda ()
(if (pair? $args)
(let ((arg (car $args)))
(set! $args (cdr $args))
arg)
(error "too few actual parameters"))))))
,@(if (null? positional-opts)
`()
`(($opt
(lambda (default)
(if (pair? $args)
(let ((arg (car $args)))
(set! $args (cdr $args))
arg)
(default))))))))
(define positional-bindings
`(,@(if positional-before-named?
`()
(map (lambda (x)
`(,x ($req)))
positional-reqs))
,@(map (lambda (x)
`(,(car x) ($opt (lambda () ,(cadr x)))))
positional-opts)))
(define named-bindings
(if (null? named)
`()
`(($key-values
(vector ,@(map (lambda (x) `$undefined)
named)))
($args
($process-keys
$args
',(make-perfect-hash-table
(map (lambda (x i)
(cons (car x) i))
named
(range 0 (length named))))
$key-values))
,@(map (lambda (x i)
`(,(cadr x)
,(if (null? (cddr x))
`($req-key $key-values ,i)
`($opt-key $key-values ,i (lambda ()
,(caddr x))))))
named
(range 0 (length named))))))
(define rest-binding
(if (not rest)
`(($args (or (null? $args)
(error "too many actual parameters"))))
`((,rest $args))))
(let ((bindings
(append (if positional-before-named?
(append utility-fns
positional-bindings
named-bindings)
(append named-bindings
utility-fns
positional-bindings))
rest-binding)))
`(lambda ,(append (if positional-before-named?
positional-reqs
'())
'$args)
(let* ,bindings
,@body))))))
(apply expand (parse-formals formals)))
(define (make-perfect-hash-table alist)
; "alist" is a list of pairs of the form "(keyword . value)"
; The result is a perfect hash-table represented as a vector of
; length 2*N, where N is the hash modulus. If the keyword K is in
; the hash-table it is at index
;
; X = (* 2 ($hash-keyword K N))
;
; and the associated value is at index X+1.
(let loop1 ((n (length alist)))
(let ((v (make-vector (* 2 n) #f)))
(let loop2 ((lst alist))
(if (pair? lst)
(let* ((key-val (car lst))
(key (car key-val)))
(let ((x (* 2 ($hash-keyword key n))))
(if (vector-ref v x)
(loop1 (+ n 1))
(begin
(vector-set! v x key)
(vector-set! v (+ x 1) (cdr key-val))
(loop2 (cdr lst))))))
v)))))
(define ($hash-keyword key n)
(let ((str (keyword->string key)))
(let loop ((h 0) (i 0))
(if (< i (string-length str))
(loop (modulo (+ (* h 65536) (char->integer (string-ref str i)))
n)
(+ i 1))
h))))
(expand-lambda* formals body))
;------------------------------------------------------------------------------
; Procedures needed at run time (called by the expanded code):
; Perfect hash-tables with keyword keys.
(define ($hash-keyword key n)
(let ((str (keyword->string key)))
(let loop ((h 0) (i 0))
(if (< i (string-length str))
(loop (modulo (+ (* h 65536) (char->integer (string-ref str i)))
n)
(+ i 1))
h))))
(define ($perfect-hash-table-lookup table key)
(let* ((n (quotient (vector-length table) 2))
(x (* 2 ($hash-keyword key n))))
(and (eq? (vector-ref table x) key)
(vector-ref table (+ x 1)))))
; Handling of named parameters.
(define $undefined (list 'undefined))
(define ($req-key key-values i)
(let ((val (vector-ref key-values i)))
(if (eq? val $undefined)
(error "a required named parameter was not provided")
val)))
(define ($opt-key key-values i default)
(let ((val (vector-ref key-values i)))
(if (eq? val $undefined)
(default)
val)))
(define ($process-keys args key-hash-table key-values)
(let loop ((args args))
(if (null? args)
args
(let ((k (car args)))
(if (not (keyword? k))
args
(let ((i ($perfect-hash-table-lookup key-hash-table k)))
(if (not i)
(error "unknown parameter keyword" k)
(if (null? (cdr args))
(error "a value was expected after keyword" k)
(begin
(if (eq? (vector-ref key-values i) $undefined)
(vector-set! key-values i (cadr args))
(error "duplicate parameter" k))
(loop (cddr args)))))))))))
(provide 'srfi-89)
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