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guile-bootstrap / guile /test-suite /tests /srfi-14.test
mike dupont
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 ;;;; srfi-14.test -*- mode:scheme; coding: iso-8859-1 -*-
;;;; --- Test suite for Guile's SRFI-14 functions.
;;;; Martin Grabmueller, 2001-07-16
;;;;
;;;; Copyright (C) 2001, 2006, 2009, 2010, 2014 Free Software Foundation, Inc.
;;;;
;;;; This library is free software; you can redistribute it and/or
;;;; modify it under the terms of the GNU Lesser General Public
;;;; License as published by the Free Software Foundation; either
;;;; version 3 of the License, or (at your option) any later version.
;;;;
;;;; This library is distributed in the hope that it will be useful,
;;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
;;;; Lesser General Public License for more details.
;;;;
;;;; You should have received a copy of the GNU Lesser General Public
;;;; License along with this library; if not, write to the Free Software
;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
(define-module (test-suite test-srfi-14)
:use-module (srfi srfi-14)
:use-module (srfi srfi-1) ;; `every'
:use-module (test-suite lib))
(define exception:invalid-char-set-cursor
(cons 'misc-error "^invalid character set cursor"))
(define exception:non-char-return
(cons 'misc-error "returned non-char"))
(with-test-prefix "char set contents"
(pass-if "empty set"
(list= eqv?
(char-set->list (char-set))
'()))
(pass-if "single char"
(list= eqv?
(char-set->list (char-set #\a))
(list #\a)))
(pass-if "contiguous chars"
(list= eqv?
(char-set->list (char-set #\a #\b #\c))
(list #\a #\b #\c)))
(pass-if "discontiguous chars"
(list= eqv?
(char-set->list (char-set #\a #\c #\e))
(list #\a #\c #\e))))
(with-test-prefix "char set additition"
(pass-if "empty + x"
(let ((cs (char-set)))
(char-set-adjoin! cs #\x)
(list= eqv?
(char-set->list cs)
(list #\x))))
(pass-if "x + y"
(let ((cs (char-set #\x)))
(char-set-adjoin! cs #\y)
(list= eqv?
(char-set->list cs)
(list #\x #\y))))
(pass-if "x + w"
(let ((cs (char-set #\x)))
(char-set-adjoin! cs #\w)
(list= eqv?
(char-set->list cs)
(list #\w #\x))))
(pass-if "x + z"
(let ((cs (char-set #\x)))
(char-set-adjoin! cs #\z)
(list= eqv?
(char-set->list cs)
(list #\x #\z))))
(pass-if "x + v"
(let ((cs (char-set #\x)))
(char-set-adjoin! cs #\v)
(list= eqv?
(char-set->list cs)
(list #\v #\x))))
(pass-if "uv + w"
(let ((cs (char-set #\u #\v)))
(char-set-adjoin! cs #\w)
(list= eqv?
(char-set->list cs)
(list #\u #\v #\w))))
(pass-if "uv + t"
(let ((cs (char-set #\u #\v)))
(char-set-adjoin! cs #\t)
(list= eqv?
(char-set->list cs)
(list #\t #\u #\v))))
(pass-if "uv + x"
(let ((cs (char-set #\u #\v)))
(char-set-adjoin! cs #\x)
(list= eqv?
(char-set->list cs)
(list #\u #\v #\x))))
(pass-if "uv + s"
(let ((cs (char-set #\u #\v)))
(char-set-adjoin! cs #\s)
(list= eqv?
(char-set->list cs)
(list #\s #\u #\v))))
(pass-if "uvx + w"
(let ((cs (char-set #\u #\v #\x)))
(char-set-adjoin! cs #\w)
(list= eqv?
(char-set->list cs)
(list #\u #\v #\w #\x))))
(pass-if "uvx + y"
(let ((cs (char-set #\u #\v #\x)))
(char-set-adjoin! cs #\y)
(list= eqv?
(char-set->list cs)
(list #\u #\v #\x #\y))))
(pass-if "uvxy + w"
(let ((cs (char-set #\u #\v #\x #\y)))
(char-set-adjoin! cs #\w)
(list= eqv?
(char-set->list cs)
(list #\u #\v #\w #\x #\y)))))
(with-test-prefix "char set union"
(pass-if "null U abc"
(char-set= (char-set-union (char-set) (->char-set "abc"))
(->char-set "abc")))
(pass-if "ab U ab"
(char-set= (char-set-union (->char-set "ab") (->char-set "ab"))
(->char-set "ab")))
(pass-if "ab U bc"
(char-set= (char-set-union (->char-set "ab") (->char-set "bc"))
(->char-set "abc")))
(pass-if "ab U cd"
(char-set= (char-set-union (->char-set "ab") (->char-set "cd"))
(->char-set "abcd")))
(pass-if "ab U de"
(char-set= (char-set-union (->char-set "ab") (->char-set "de"))
(->char-set "abde")))
(pass-if "abc U bcd"
(char-set= (char-set-union (->char-set "abc") (->char-set "bcd"))
(->char-set "abcd")))
(pass-if "abdf U abcdefg"
(char-set= (char-set-union (->char-set "abdf") (->char-set "abcdefg"))
(->char-set "abcdefg")))
(pass-if "abef U cd"
(char-set= (char-set-union (->char-set "abef") (->char-set "cd"))
(->char-set "abcdef")))
(pass-if "abgh U cd"
(char-set= (char-set-union (->char-set "abgh") (->char-set "cd"))
(->char-set "abcdgh")))
(pass-if "bc U ab"
(char-set= (char-set-union (->char-set "bc") (->char-set "ab"))
(->char-set "abc")))
(pass-if "cd U ab"
(char-set= (char-set-union (->char-set "cd") (->char-set "ab"))
(->char-set "abcd")))
(pass-if "de U ab"
(char-set= (char-set-union (->char-set "de") (->char-set "ab"))
(->char-set "abde")))
(pass-if "cd U abc"
(char-set= (char-set-union (->char-set "cd") (->char-set "abc"))
(->char-set "abcd")))
(pass-if "cd U abcd"
(char-set= (char-set-union (->char-set "cd") (->char-set "abcd"))
(->char-set "abcd")))
(pass-if "cde U abcdef"
(char-set= (char-set-union (->char-set "cde") (->char-set "abcdef"))
(->char-set "abcdef"))))
(with-test-prefix "char set xor"
(pass-if "null - xy"
(char-set= (char-set-xor (char-set) (char-set #\x #\y))
(char-set #\x #\y)))
(pass-if "x - x"
(char-set= (char-set-xor (char-set #\x) (char-set #\x))
(char-set)))
(pass-if "xy - x"
(char-set= (char-set-xor (char-set #\x #\y) (char-set #\x))
(char-set #\y)))
(pass-if "xy - y"
(char-set= (char-set-xor (char-set #\x #\y) (char-set #\y))
(char-set #\x)))
(pass-if "wxy - w"
(char-set= (char-set-xor (char-set #\w #\x #\y) (char-set #\w))
(char-set #\x #\y)))
(pass-if "wxy - x"
(char-set= (char-set-xor (char-set #\w #\x #\y) (char-set #\x))
(char-set #\w #\y)))
(pass-if "wxy - y"
(char-set= (char-set-xor (char-set #\w #\x #\y) (char-set #\y))
(char-set #\w #\x)))
(pass-if "uvxy - u"
(char-set= (char-set-xor (char-set #\u #\v #\x #\y) (char-set #\u))
(char-set #\v #\x #\y)))
(pass-if "uvxy - v"
(char-set= (char-set-xor (char-set #\u #\v #\x #\y) (char-set #\v))
(char-set #\u #\x #\y)))
(pass-if "uvxy - x"
(char-set= (char-set-xor (char-set #\u #\v #\x #\y) (char-set #\x))
(char-set #\u #\v #\y)))
(pass-if "uvxy - y"
(char-set= (char-set-xor (char-set #\u #\v #\x #\y) (char-set #\y))
(char-set #\u #\v #\x)))
(pass-if "uwy - u"
(char-set= (char-set-xor (char-set #\u #\w #\y) (char-set #\u))
(char-set #\w #\y)))
(pass-if "uwy - w"
(char-set= (char-set-xor (char-set #\u #\w #\y) (char-set #\w))
(char-set #\u #\y)))
(pass-if "uwy - y"
(char-set= (char-set-xor (char-set #\u #\w #\y) (char-set #\y))
(char-set #\u #\w)))
(pass-if "uvwy - v"
(char-set= (char-set-xor (char-set #\u #\v #\w #\y) (char-set #\v))
(char-set #\u #\w #\y))))
(with-test-prefix "char-set?"
(pass-if "success on empty set"
(char-set? (char-set)))
(pass-if "success on non-empty set"
(char-set? char-set:printing))
(pass-if "failure on empty set"
(not (char-set? #t))))
(with-test-prefix "char-set="
(pass-if "success, no arg"
(char-set=))
(pass-if "success, one arg"
(char-set= char-set:lower-case))
(pass-if "success, two args"
(char-set= char-set:upper-case char-set:upper-case))
(pass-if "failure, first empty"
(not (char-set= (char-set) (char-set #\a))))
(pass-if "failure, second empty"
(not (char-set= (char-set #\a) (char-set))))
(pass-if "success, more args"
(char-set= char-set:blank char-set:blank char-set:blank))
(pass-if "failure, same length, different elements"
(not (char-set= (char-set #\a #\b #\d) (char-set #\a #\c #\d)))))
(with-test-prefix "char-set<="
(pass-if "success, no arg"
(char-set<=))
(pass-if "success, one arg"
(char-set<= char-set:lower-case))
(pass-if "success, two args"
(char-set<= char-set:upper-case char-set:upper-case))
(pass-if "success, first empty"
(char-set<= (char-set) (char-set #\a)))
(pass-if "failure, second empty"
(not (char-set<= (char-set #\a) (char-set))))
(pass-if "success, more args, equal"
(char-set<= char-set:blank char-set:blank char-set:blank))
(pass-if "success, more args, not equal"
(char-set<= char-set:blank
(char-set-adjoin char-set:blank #\F)
(char-set-adjoin char-set:blank #\F #\o))))
(with-test-prefix "char-set-hash"
(pass-if "empty set, bound"
(let ((h (char-set-hash char-set:empty 31)))
(and h (number? h) (exact? h) (>= h 0) (< h 31))))
(pass-if "empty set, no bound"
(let ((h (char-set-hash char-set:empty)))
(and h (number? h) (exact? h) (>= h 0))))
(pass-if "full set, bound"
(let ((h (char-set-hash char-set:full 31)))
(and h (number? h) (exact? h) (>= h 0) (< h 31))))
(pass-if "full set, no bound"
(let ((h (char-set-hash char-set:full)))
(and h (number? h) (exact? h) (>= h 0))))
(pass-if "other set, bound"
(let ((h (char-set-hash (char-set #\f #\o #\b #\a #\r) 31)))
(and h (number? h) (exact? h) (>= h 0) (< h 31))))
(pass-if "other set, no bound"
(let ((h (char-set-hash (char-set #\f #\o #\b #\a #\r))))
(and h (number? h) (exact? h) (>= h 0)))))
(with-test-prefix "char-set cursor"
(pass-if-exception "invalid character cursor"
exception:wrong-type-arg
(let* ((cs (char-set #\B #\r #\a #\z))
(cc (char-set-cursor cs)))
(char-set-ref cs 1000)))
(pass-if "success"
(let* ((cs (char-set #\B #\r #\a #\z))
(cc (char-set-cursor cs)))
(char? (char-set-ref cs cc))))
(pass-if "end of set fails"
(let* ((cs (char-set #\a))
(cc (char-set-cursor cs)))
(not (end-of-char-set? cc))))
(pass-if "end of set succeeds, empty set"
(let* ((cs (char-set))
(cc (char-set-cursor cs)))
(end-of-char-set? cc)))
(pass-if "end of set succeeds, non-empty set"
(let* ((cs (char-set #\a))
(cc (char-set-cursor cs))
(cc (char-set-cursor-next cs cc)))
(end-of-char-set? cc))))
(with-test-prefix "char-set-fold"
(pass-if "count members"
(= (char-set-fold (lambda (c n) (+ n 1)) 0 (char-set #\a #\b)) 2))
(pass-if "copy set"
(= (char-set-size (char-set-fold (lambda (c cs) (char-set-adjoin cs c))
(char-set) (char-set #\a #\b))) 2)))
(define char-set:256
(string->char-set (apply string (map integer->char (iota 256)))))
(with-test-prefix "char-set-unfold"
(pass-if "create char set"
(char-set= char-set:256
(char-set-unfold (lambda (s) (= s 256)) integer->char
(lambda (s) (+ s 1)) 0)))
(pass-if "create char set (base set)"
(char-set= char-set:256
(char-set-unfold (lambda (s) (= s 256)) integer->char
(lambda (s) (+ s 1)) 0 char-set:empty))))
(with-test-prefix "char-set-unfold!"
(pass-if "create char set"
(char-set= char-set:256
(char-set-unfold! (lambda (s) (= s 256)) integer->char
(lambda (s) (+ s 1)) 0
(char-set-copy char-set:empty))))
(pass-if "create char set"
(char-set= char-set:256
(char-set-unfold! (lambda (s) (= s 32)) integer->char
(lambda (s) (+ s 1)) 0
(char-set-copy char-set:256)))))
(with-test-prefix "char-set-for-each"
(pass-if "copy char set"
(= (char-set-size (let ((cs (char-set)))
(char-set-for-each
(lambda (c) (char-set-adjoin! cs c))
(char-set #\a #\b))
cs))
2)))
(with-test-prefix "char-set-map"
(pass-if "upper case char set 1"
(char-set= (char-set-map char-upcase
(string->char-set "abcdefghijklmnopqrstuvwxyz"))
(string->char-set "ABCDEFGHIJKLMNOPQRSTUVWXYZ")))
(pass-if "upper case char set 2"
(char-set= (char-set-map char-upcase
(string->char-set "�����������������������������"))
(string->char-set "�����������������������������"))))
(with-test-prefix "string->char-set"
(pass-if "some char set"
(let ((chars '(#\g #\u #\i #\l #\e)))
(char-set= (list->char-set chars)
(string->char-set (apply string chars))))))
(with-test-prefix "char-set->string"
(pass-if "some char set"
(let ((cs (char-set #\g #\u #\i #\l #\e)))
(string=? (char-set->string cs)
"egilu"))))
(with-test-prefix "list->char-set"
(pass-if "list->char-set"
(char-set= (list->char-set '(#\a #\b #\c))
(->char-set "abc")))
(pass-if "list->char-set!"
(let* ((cs (char-set #\a #\z)))
(list->char-set! '(#\m #\n) cs)
(char-set= cs
(char-set #\a #\m #\n #\z)))))
(with-test-prefix "string->char-set"
(pass-if "string->char-set"
(char-set= (string->char-set "foobar")
(string->char-set "barfoo")))
(pass-if "string->char-set cs"
(char-set= (string->char-set "foo" (string->char-set "bar"))
(string->char-set "barfoo")))
(pass-if "string->char-set!"
(let ((cs (string->char-set "bar")))
(string->char-set! "foo" cs)
(char-set= cs
(string->char-set "barfoo")))))
(with-test-prefix "char-set-filter"
(pass-if "filter w/o base"
(char-set=
(char-set-filter (lambda (c) (char=? c #\x))
(->char-set "qrstuvwxyz"))
(->char-set #\x)))
(pass-if "filter w/ base"
(char-set=
(char-set-filter (lambda (c) (char=? c #\x))
(->char-set "qrstuvwxyz")
(->char-set "op"))
(->char-set "opx")))
(pass-if "filter!"
(let ((cs (->char-set "abc")))
(set! cs (char-set-filter! (lambda (c) (char=? c #\x))
(->char-set "qrstuvwxyz")
cs))
(char-set= (string->char-set "abcx")
cs))))
(with-test-prefix "char-set-intersection"
(pass-if "empty"
(char-set= (char-set-intersection (char-set) (char-set))
(char-set)))
(pass-if "identical, one element"
(char-set= (char-set-intersection (char-set #\a) (char-set #\a))
(char-set #\a)))
(pass-if "identical, two elements"
(char-set= (char-set-intersection (char-set #\a #\b) (char-set #\a #\b))
(char-set #\a #\b)))
(pass-if "identical, two elements"
(char-set= (char-set-intersection (char-set #\a #\c) (char-set #\a #\c))
(char-set #\a #\c)))
(pass-if "one vs null"
(char-set= (char-set-intersection (char-set #\a) (char-set))
(char-set)))
(pass-if "null vs one"
(char-set= (char-set-intersection (char-set) (char-set #\a))
(char-set)))
(pass-if "no elements shared"
(char-set= (char-set-intersection (char-set #\a #\c) (char-set #\b #\d))
(char-set)))
(pass-if "one elements shared"
(char-set= (char-set-intersection (char-set #\a #\c #\d) (char-set #\b #\d))
(char-set #\d))))
(with-test-prefix "char-set-complement"
(pass-if "complement of null"
(char-set= (char-set-complement (char-set))
(char-set-union (ucs-range->char-set 0 #xd800)
(ucs-range->char-set #xe000 #x110000))))
(pass-if "complement of null (2)"
(char-set= (char-set-complement (char-set))
(ucs-range->char-set 0 #x110000)))
(pass-if "complement of #\\0"
(char-set= (char-set-complement (char-set #\nul))
(ucs-range->char-set 1 #x110000)))
(pass-if "complement of U+10FFFF"
(char-set= (char-set-complement (char-set (integer->char #x10ffff)))
(ucs-range->char-set 0 #x10ffff)))
(pass-if "complement of 'FOO'"
(char-set= (char-set-complement (->char-set "FOO"))
(char-set-union (ucs-range->char-set 0 (char->integer #\F))
(ucs-range->char-set (char->integer #\G)
(char->integer #\O))
(ucs-range->char-set (char->integer #\P)
#x110000))))
(pass-if "complement of #\\a #\\b U+010300"
(char-set= (char-set-complement (char-set #\a #\b (integer->char #x010300)))
(char-set-union (ucs-range->char-set 0 (char->integer #\a))
(ucs-range->char-set (char->integer #\c) #x010300)
(ucs-range->char-set #x010301 #x110000)))))
(with-test-prefix "ucs-range->char-set"
(pass-if "char-set"
(char-set= (ucs-range->char-set 65 68)
(->char-set "ABC")))
(pass-if "char-set w/ base"
(char-set= (ucs-range->char-set 65 68 #f (->char-set "DEF"))
(->char-set "ABCDEF")))
(pass-if "char-set!"
(let ((cs (->char-set "DEF")))
(ucs-range->char-set! 65 68 #f cs)
(char-set= cs
(->char-set "ABCDEF")))))
(with-test-prefix "char-set-count"
(pass-if "null"
(= 0 (char-set-count (lambda (c) #t) (char-set))))
(pass-if "count"
(= 5 (char-set-count (lambda (c) #t)
(->char-set "guile")))))
(with-test-prefix "char-set-contains?"
(pass-if "#\\a not in null"
(not (char-set-contains? (char-set) #\a)))
(pass-if "#\\a is in 'abc'"
(char-set-contains? (->char-set "abc") #\a)))
(with-test-prefix "any / every"
(pass-if "char-set-every #t"
(char-set-every (lambda (c) #t)
(->char-set "abc")))
(pass-if "char-set-every #f"
(not (char-set-every (lambda (c) (char=? c #\c))
(->char-set "abc"))))
(pass-if "char-set-any #t"
(char-set-any (lambda (c) (char=? c #\c))
(->char-set "abc")))
(pass-if "char-set-any #f"
(not (char-set-any (lambda (c) #f)
(->char-set "abc")))))
(with-test-prefix "char-set-delete"
(pass-if "abc - a"
(char-set= (char-set-delete (->char-set "abc") #\a)
(char-set #\b #\c)))
(pass-if "abc - d"
(char-set= (char-set-delete (->char-set "abc") #\d)
(char-set #\a #\b #\c)))
(pass-if "delete! abc - a"
(let ((cs (char-set #\a #\b #\c)))
(char-set-delete! cs #\a)
(char-set= cs (char-set #\b #\c)))))
(with-test-prefix "char-set-difference"
(pass-if "not different"
(char-set= (char-set-difference (->char-set "foobar") (->char-set "foobar"))
(char-set)))
(pass-if "completely different"
(char-set= (char-set-difference (->char-set "foo") (->char-set "bar"))
(->char-set "foo")))
(pass-if "partially different"
(char-set= (char-set-difference (->char-set "breakfast") (->char-set "breakroom"))
(->char-set "fst"))))
(with-test-prefix "standard char sets (ASCII)"
(pass-if "char-set:lower-case"
(char-set<= (string->char-set "abcdefghijklmnopqrstuvwxyz")
char-set:lower-case))
(pass-if "char-set:upper-case"
(char-set<= (string->char-set "ABCDEFGHIJKLMNOPQRSTUVWXYZ")
char-set:upper-case))
(pass-if "char-set:title-case"
(char-set<= (string->char-set "")
char-set:title-case))
(pass-if "char-set:letter"
(char-set<= (char-set-union
(string->char-set "abcdefghijklmnopqrstuvwxyz")
(string->char-set "ABCDEFGHIJKLMNOPQRSTUVWXYZ"))
char-set:letter))
(pass-if "char-set:digit"
(char-set<= (string->char-set "0123456789")
char-set:digit))
(pass-if "char-set:hex-digit"
(char-set<= (string->char-set "0123456789abcdefABCDEF")
char-set:hex-digit))
(pass-if "char-set:letter+digit"
(char-set<= (char-set-union
(string->char-set "abcdefghijklmnopqrstuvwxyz")
(string->char-set "ABCDEFGHIJKLMNOPQRSTUVWXYZ")
(string->char-set "0123456789"))
char-set:letter+digit))
(pass-if "char-set:punctuation"
(char-set<= (string->char-set "!\"#%&'()*,-./:;?@[\\]_{}")
char-set:punctuation))
(pass-if "char-set:symbol"
(char-set<= (string->char-set "$+<=>^`|~")
char-set:symbol))
(pass-if "char-set:graphic"
(char-set<= (char-set-union
(string->char-set "abcdefghijklmnopqrstuvwxyz")
(string->char-set "ABCDEFGHIJKLMNOPQRSTUVWXYZ")
(string->char-set "0123456789")
(string->char-set "!\"#%&'()*,-./:;?@[\\]_{}")
(string->char-set "$+<=>^`|~"))
char-set:graphic))
(pass-if "char-set:whitespace"
(char-set<= (string->char-set
(string
(integer->char #x09)
(integer->char #x0a)
(integer->char #x0b)
(integer->char #x0c)
(integer->char #x0d)
(integer->char #x20)))
char-set:whitespace))
(pass-if "char-set:printing"
(char-set<= (char-set-union
(string->char-set "abcdefghijklmnopqrstuvwxyz")
(string->char-set "ABCDEFGHIJKLMNOPQRSTUVWXYZ")
(string->char-set "0123456789")
(string->char-set "!\"#%&'()*,-./:;?@[\\]_{}")
(string->char-set "$+<=>^`|~")
(string->char-set (string
(integer->char #x09)
(integer->char #x0a)
(integer->char #x0b)
(integer->char #x0c)
(integer->char #x0d)
(integer->char #x20))))
char-set:printing))
(pass-if "char-set:ASCII"
(char-set= (ucs-range->char-set 0 128)
char-set:ascii))
(pass-if "char-set:iso-control"
(char-set<= (string->char-set
(apply string
(map integer->char (append
;; U+0000 to U+001F
(iota #x20)
(list #x7f)))))
char-set:iso-control)))
;;;
;;; Non-ASCII codepoints
;;;
;;; Here, we only test ISO-8859-1 (Latin-1), notably because behavior of
;;; SRFI-14 for implementations supporting this charset is well-defined.
;;;
(define (every? pred lst)
(not (not (every pred lst))))
(when (defined? 'setlocale)
(setlocale LC_ALL ""))
(with-test-prefix "Latin-1 (8-bit charset)"
(pass-if "char-set:lower-case"
(char-set<= (string->char-set
(string-append "abcdefghijklmnopqrstuvwxyz"
"���������������������������������")
char-set:lower-case)))
(pass-if "char-set:upper-case"
(char-set<= (string->char-set
(string-append "ABCDEFGHIJKLMNOPQRSTUVWXYZ"
"������������������������������")
char-set:lower-case)))
(pass-if "char-set:title-case"
(char-set<= (string->char-set "")
char-set:title-case))
(pass-if "char-set:letter"
(char-set<= (string->char-set
(string-append
;; Lowercase
"abcdefghijklmnopqrstuvwxyz"
"���������������������������������"
;; Uppercase
"ABCDEFGHIJKLMNOPQRSTUVWXYZ"
"������������������������������"
;; Uncased
"��"))
char-set:letter))
(pass-if "char-set:digit"
(char-set<= (string->char-set "0123456789")
char-set:digit))
(pass-if "char-set:hex-digit"
(char-set<= (string->char-set "0123456789abcdefABCDEF")
char-set:hex-digit))
(pass-if "char-set:letter+digit"
(char-set<= (char-set-union
char-set:letter
char-set:digit)
char-set:letter+digit))
(pass-if "char-set:punctuation"
(char-set<= (string->char-set
(string-append "!\"#%&'()*,-./:;?@[\\]_{}"
"�������"))
char-set:punctuation))
(pass-if "char-set:symbol"
(char-set<= (string->char-set
(string-append "$+<=>^`|~"
"����������������"))
char-set:symbol))
;; Note that SRFI-14 itself is inconsistent here. Characters that
;; are non-digit numbers (such as category No) are clearly 'graphic'
;; but don't occur in the letter, digit, punct, or symbol charsets.
(pass-if "char-set:graphic"
(char-set<= (char-set-union
char-set:letter
char-set:digit
char-set:punctuation
char-set:symbol)
char-set:graphic))
(pass-if "char-set:whitespace"
(char-set<= (string->char-set
(string
(integer->char #x09)
(integer->char #x0a)
(integer->char #x0b)
(integer->char #x0c)
(integer->char #x0d)
(integer->char #x20)
(integer->char #xa0)))
char-set:whitespace))
(pass-if "char-set:printing"
(char-set<= (char-set-union char-set:graphic char-set:whitespace)
char-set:printing))
(pass-if "char-set:iso-control"
(char-set<= (string->char-set
(apply string
(map integer->char (append
;; U+0000 to U+001F
(iota #x20)
(list #x7f)
;; U+007F to U+009F
(map (lambda (x) (+ #x80 x))
(iota #x20))))))
char-set:iso-control)))