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* tests/gpgscm/Makefile.am (EXTRA_DIST): Add new file. * tests/gpgscm/lib.scm (string-translate): New function. * tests/gpgscm/main.c (main): Load new file. * tests/gpgscm/tests.scm (dirname): New function. (test-pool): Record execution times, emit XML report. (test): Record execution times, record log file name, emit XML report. (run-tests-parallel): Write XML report. (run-tests-sequential): Likewise. * tests/gpgscm/xml.scm: New file. * tests/gpgme/Makefile.am (CLEANFILES): Add 'report.xml'. * tests/gpgsm/Makefile.am: Likewise. * tests/migrations/Makefile.am: Likewise. * tests/openpgp/Makefile.am: Likewise. Signed-off-by: Justus Winter <justus@g10code.com>
308 lines
9.1 KiB
Scheme
308 lines
9.1 KiB
Scheme
;; Additional library functions for TinySCHEME.
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;;
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;; Copyright (C) 2016 g10 Code GmbH
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;;
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;; This file is part of GnuPG.
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;;
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;; GnuPG is free software; you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation; either version 3 of the License, or
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;; (at your option) any later version.
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;;
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;; GnuPG is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;;
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;; You should have received a copy of the GNU General Public License
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;; along with this program; if not, see <http://www.gnu.org/licenses/>.
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(macro (assert form)
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(let ((tag (get-tag form)))
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`(if (not ,(cadr form))
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(throw ,(if (and (pair? tag) (string? (car tag)) (number? (cdr tag)))
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`(string-append ,(car tag) ":"
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,(number->string (+ 1 (cdr tag)))
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": Assertion failed: ")
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"Assertion failed: ")
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(quote ,(cadr form))))))
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(assert #t)
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(assert (not #f))
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;; Trace displays and returns the given value. A debugging aid.
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(define (trace x)
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(display x)
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(newline)
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x)
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;; Stringification.
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(define (stringify expression)
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(let ((p (open-output-string)))
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(write expression p)
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(get-output-string p)))
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(define (filter pred lst)
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(cond ((null? lst) '())
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((pred (car lst))
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(cons (car lst) (filter pred (cdr lst))))
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(else (filter pred (cdr lst)))))
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(define (any p l)
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(cond ((null? l) #f)
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((p (car l)) #t)
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(else (any p (cdr l)))))
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(define (all p l)
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(cond ((null? l) #t)
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((not (p (car l))) #f)
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(else (all p (cdr l)))))
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;; Return the first element of a list.
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(define first car)
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;; Return the last element of a list.
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(define (last lst)
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(if (null? (cdr lst))
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(car lst)
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(last (cdr lst))))
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;; Compute the powerset of a list.
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(define (powerset set)
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(if (null? set)
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'(())
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(let ((rst (powerset (cdr set))))
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(append (map (lambda (x) (cons (car set) x))
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rst)
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rst))))
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;; Is PREFIX a prefix of S?
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(define (string-prefix? s prefix)
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(and (>= (string-length s) (string-length prefix))
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(string=? prefix (substring s 0 (string-length prefix)))))
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(assert (string-prefix? "Scheme" "Sch"))
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;; Is SUFFIX a suffix of S?
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(define (string-suffix? s suffix)
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(and (>= (string-length s) (string-length suffix))
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(string=? suffix (substring s (- (string-length s)
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(string-length suffix))
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(string-length s)))))
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(assert (string-suffix? "Scheme" "eme"))
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;; Locate the first occurrence of needle in haystack starting at offset.
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(ffi-define (string-index haystack needle [offset]))
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(assert (= 2 (string-index "Hallo" #\l)))
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(assert (= 3 (string-index "Hallo" #\l 3)))
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(assert (equal? #f (string-index "Hallo" #\.)))
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;; Locate the last occurrence of needle in haystack starting at offset.
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(ffi-define (string-rindex haystack needle [offset]))
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(assert (= 3 (string-rindex "Hallo" #\l)))
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(assert (equal? #f (string-rindex "Hallo" #\a 2)))
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(assert (equal? #f (string-rindex "Hallo" #\.)))
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;; Split HAYSTACK at each character that makes PREDICATE true at most
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;; N times.
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(define (string-split-pln haystack predicate lookahead n)
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(let ((length (string-length haystack)))
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(define (split acc offset n)
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(if (>= offset length)
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(reverse! acc)
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(let ((i (lookahead haystack offset)))
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(if (or (eq? i #f) (= 0 n))
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(reverse! (cons (substring haystack offset length) acc))
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(split (cons (substring haystack offset i) acc)
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(+ i 1) (- n 1))))))
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(split '() 0 n)))
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(define (string-indexp haystack offset predicate)
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(cond
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((= (string-length haystack) offset)
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#f)
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((predicate (string-ref haystack offset))
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offset)
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(else
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(string-indexp haystack (+ 1 offset) predicate))))
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;; Split HAYSTACK at each character that makes PREDICATE true at most
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;; N times.
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(define (string-splitp haystack predicate n)
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(string-split-pln haystack predicate
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(lambda (haystack offset)
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(string-indexp haystack offset predicate))
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n))
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(assert (equal? '("a" "b") (string-splitp "a b" char-whitespace? -1)))
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(assert (equal? '("a" "b") (string-splitp "a\tb" char-whitespace? -1)))
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(assert (equal? '("a" "" "b") (string-splitp "a \tb" char-whitespace? -1)))
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;; Split haystack at delimiter at most n times.
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(define (string-splitn haystack delimiter n)
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(string-split-pln haystack
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(lambda (c) (char=? c delimiter))
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(lambda (haystack offset)
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(string-index haystack delimiter offset))
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n))
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(assert (= 2 (length (string-splitn "foo:bar:baz" #\: 1))))
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(assert (string=? "foo" (car (string-splitn "foo:bar:baz" #\: 1))))
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(assert (string=? "bar:baz" (cadr (string-splitn "foo:bar:baz" #\: 1))))
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;; Split haystack at delimiter.
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(define (string-split haystack delimiter)
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(string-splitn haystack delimiter -1))
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(assert (= 3 (length (string-split "foo:bar:baz" #\:))))
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(assert (string=? "foo" (car (string-split "foo:bar:baz" #\:))))
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(assert (string=? "bar" (cadr (string-split "foo:bar:baz" #\:))))
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(assert (string=? "baz" (caddr (string-split "foo:bar:baz" #\:))))
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;; Split haystack at newlines.
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(define (string-split-newlines haystack)
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(if *win32*
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(map (lambda (line) (if (string-suffix? line "\r")
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(substring line 0 (- (string-length line) 1))
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line))
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(string-split haystack #\newline))
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(string-split haystack #\newline)))
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;; Trim the prefix of S containing only characters that make PREDICATE
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;; true.
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(define (string-ltrim predicate s)
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(if (string=? s "")
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""
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(let loop ((s' (string->list s)))
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(if (predicate (car s'))
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(loop (cdr s'))
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(list->string s')))))
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(assert (string=? "" (string-ltrim char-whitespace? "")))
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(assert (string=? "foo" (string-ltrim char-whitespace? " foo")))
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;; Trim the suffix of S containing only characters that make PREDICATE
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;; true.
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(define (string-rtrim predicate s)
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(if (string=? s "")
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""
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(let loop ((s' (reverse! (string->list s))))
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(if (predicate (car s'))
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(loop (cdr s'))
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(list->string (reverse! s'))))))
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(assert (string=? "" (string-rtrim char-whitespace? "")))
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(assert (string=? "foo" (string-rtrim char-whitespace? "foo ")))
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;; Trim both the prefix and suffix of S containing only characters
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;; that make PREDICATE true.
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(define (string-trim predicate s)
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(string-ltrim predicate (string-rtrim predicate s)))
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(assert (string=? "" (string-trim char-whitespace? "")))
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(assert (string=? "foo" (string-trim char-whitespace? " foo ")))
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;; Check if needle is contained in haystack.
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(ffi-define (string-contains? haystack needle))
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(assert (string-contains? "Hallo" "llo"))
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(assert (not (string-contains? "Hallo" "olla")))
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;; Translate characters.
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(define (string-translate s from to)
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(list->string (map (lambda (c)
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(let ((i (string-index from c)))
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(if i (string-ref to i) c))) (string->list s))))
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(assert (equal? (string-translate "foo/bar" "/" ".") "foo.bar"))
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;; Read a word from port P.
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(define (read-word . p)
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(list->string
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(let f ()
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(let ((c (apply peek-char p)))
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(cond
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((eof-object? c) '())
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((char-alphabetic? c)
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(apply read-char p)
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(cons c (f)))
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(else
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(apply read-char p)
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'()))))))
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(define (list->string-reversed lst)
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(let* ((len (length lst))
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(str (make-string len)))
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(let loop ((i (- len 1))
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(l lst))
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(if (< i 0)
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(begin
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(assert (null? l))
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str)
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(begin
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(string-set! str i (car l))
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(loop (- i 1) (cdr l)))))))
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;; Read a line from port P.
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(define (read-line . p)
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(let loop ((acc '()))
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(let ((c (apply peek-char p)))
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(cond
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((eof-object? c)
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(if (null? acc)
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c ;; #eof
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(list->string-reversed acc)))
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((char=? c #\newline)
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(apply read-char p)
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(list->string-reversed acc))
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(else
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(apply read-char p)
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(loop (cons c acc)))))))
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;; Read everything from port P.
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(define (read-all . p)
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(let loop ((acc (open-output-string)))
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(let ((c (apply peek-char p)))
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(cond
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((eof-object? c) (get-output-string acc))
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(else
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(write-char (apply read-char p) acc)
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(loop acc))))))
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;;
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;; Windows support.
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;;
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;; Like call-with-input-file but opens the file in 'binary' mode.
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(define (call-with-binary-input-file filename proc)
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(letfd ((fd (open filename (logior O_RDONLY O_BINARY))))
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(proc (fdopen fd "rb"))))
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;; Like call-with-output-file but opens the file in 'binary' mode.
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(define (call-with-binary-output-file filename proc)
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(letfd ((fd (open filename (logior O_WRONLY O_CREAT O_BINARY) #o600)))
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(proc (fdopen fd "wb"))))
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;;
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;; Libc functions.
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;;
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;; Change the read/write offset.
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(ffi-define (seek fd offset whence))
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;; Constants for WHENCE.
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(ffi-define SEEK_SET)
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(ffi-define SEEK_CUR)
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(ffi-define SEEK_END)
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;; Get our process id.
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(ffi-define (getpid))
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;; Copy data from file descriptor SOURCE to every file descriptor in
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;; SINKS.
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(ffi-define (splice source . sinks))
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;;
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;; Random numbers.
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;;
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;; Seed the random number generator.
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(ffi-define (srandom seed))
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;; Get a pseudo-random number between 0 (inclusive) and SCALE
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;; (exclusive).
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(ffi-define (random scale))
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;; Create a string of the given SIZE containing pseudo-random data.
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(ffi-define (make-random-string size))
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