;; Copyright (C) Marc Nieper-Wißkirchen (2016, 2017). 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.
(define-library (srfi 146 test)
(export run-tests)
(import (scheme base)
(srfi 1)
(srfi 8)
(srfi 128)
(srfi 146)
(chibi test))
(begin
(define (run-tests)
(test-begin "srfi-146: mappings")
(test-group "Predicates"
(define mapping0 (mapping comparator))
(define mapping1 (mapping comparator 'a 1 'b 2 'c 3))
(define mapping2 (mapping comparator 'c 1 'd 2 'e 3))
(define mapping3 (mapping comparator 'd 1 'e 2 'f 3))
(test-assert "mapping?: a mapping"
(mapping? (mapping comparator)))
(test-assert "mapping?: not a mapping"
(not (mapping? (list 1 2 3))))
(test-assert "mapping-empty?: empty mapping"
(mapping-empty? mapping0))
(test-assert "mapping-empty?: non-empty mapping"
(not (mapping-empty? mapping1)))
(test-assert "mapping-contains?: containing"
(mapping-contains? mapping1 'b))
(test-assert "mapping-contains?: not containing"
(not (mapping-contains? mapping1 '2)))
(test-assert "mapping-disjoint?: disjoint"
(mapping-disjoint? mapping1 mapping3))
(test-assert "mapping-disjoint?: not disjoint"
(not (mapping-disjoint? mapping1 mapping2))))
(test-group "Accessors"
(define mapping1 (mapping comparator 'a 1 'b 2 'c 3))
(test "mapping-ref: key found"
2
(mapping-ref mapping1 'b))
(test "mapping-ref: key not found/with failure"
42
(mapping-ref mapping1 'd (lambda () 42)))
(test-error "mapping-ref: key not found/without failure"
(mapping-ref mapping1 'd))
(test "mapping-ref: with success procedure"
(* 2 2)
(mapping-ref mapping1 'b (lambda () #f) (lambda (x) (* x x))))
(test "mapping-ref/default: key found"
3
(mapping-ref/default mapping1 'c 42))
(test "mapping-ref/default: key not found"
42
(mapping-ref/default mapping1 'd 42))
(test "mapping-key-comparator"
comparator
(mapping-key-comparator mapping1)))
(test-group "Updaters"
(define mapping1 (mapping comparator 'a 1 'b 2 'c 3))
(define mapping2 (mapping-set mapping1 'c 4 'd 4 'd 5))
(define mapping3 (mapping-update mapping1 'b (lambda (x) (* x x))))
(define mapping4 (mapping-update/default mapping1 'd (lambda (x) (* x x)) 4))
(define mapping5 (mapping-adjoin mapping1 'c 4 'd 4 'd 5))
(define mapping0 (mapping comparator))
(test "mapping-adjoin: key already in mapping"
3
(mapping-ref mapping5 'c))
(test "mapping-adjoin: key set earlier"
4
(mapping-ref mapping5 'd))
(test "mapping-set: key already in mapping"
4
(mapping-ref mapping2 'c))
(test "mapping-set: key set earlier"
5
(mapping-ref mapping2 'd))
(test "mapping-replace: key not in mapping"
#f
(mapping-ref/default (mapping-replace mapping1 'd 4) 'd #f))
(test "mapping-replace: key in mapping"
6
(mapping-ref (mapping-replace mapping1 'c 6) 'c))
(test "mapping-delete"
42
(mapping-ref/default (mapping-delete mapping1 'b) 'b 42))
(test "mapping-delete-all"
42
(mapping-ref/default (mapping-delete-all mapping1 '(a b)) 'b 42))
(test "mapping-intern: key in mapping"
(list mapping1 2)
(receive result
(mapping-intern mapping1 'b (lambda () (error "should not have been invoked")))
result))
(test "mapping-intern: key not in mapping"
(list 42 42)
(receive (mapping value)
(mapping-intern mapping1 'd (lambda () 42))
(list value (mapping-ref mapping 'd))))
(test "mapping-update"
4
(mapping-ref mapping3 'b))
(test "mapping-update/default"
16
(mapping-ref mapping4 'd))
(test "mapping-pop: empty mapping"
'empty
(mapping-pop mapping0 (lambda () 'empty)))
(test "mapping-pop: non-empty mapping"
(list 2 'a 1)
(receive (mapping key value)
(mapping-pop mapping1)
(list (mapping-size mapping) key value))))
(test-group "The whole mapping"
(define mapping0 (mapping comparator))
(define mapping1 (mapping comparator 'a 1 'b 2 'c 3))
(test "mapping-size: empty mapping"
0
(mapping-size mapping0))
(test "mapping-size: non-empty mapping"
3
(mapping-size mapping1))
(test "mapping-find: found in mapping"
(list 'b 2)
(receive result
(mapping-find (lambda (key value)
(and (eq? key 'b)
(= value 2)))
mapping1
(lambda () (error "should not have been called")))
result))
(test "mapping-find: not found in mapping"
(list 42)
(receive result
(mapping-find (lambda (key value)
(eq? key 'd))
mapping1
(lambda ()
42))
result))
(test "mapping-count"
2
(mapping-count (lambda (key value)
(>= value 2))
mapping1))
(test-assert "mapping-any?: found"
(mapping-any? (lambda (key value)
(= value 3))
mapping1))
(test-assert "mapping-any?: not found"
(not (mapping-any? (lambda (key value)
(= value 4))
mapping1)))
(test-assert "mapping-every?: true"
(mapping-every? (lambda (key value)
(<= value 3))
mapping1))
(test-assert "mapping-every?: false"
(not (mapping-every? (lambda (key value)
(<= value 2))
mapping1)))
(test "mapping-keys"
3
(length (mapping-keys mapping1)))
(test "mapping-values"
6
(fold + 0 (mapping-values mapping1)))
(test "mapping-entries"
(list 3 6)
(receive (keys values)
(mapping-entries mapping1)
(list (length keys) (fold + 0 values)))))
(test-group "Mapping and folding"
(define mapping1 (mapping comparator 'a 1 'b 2 'c 3))
(define mapping2 (mapping-map (lambda (key value)
(values (symbol->string key)
(* 10 value)))
comparator
mapping1))
(test "mapping-map"
20
(mapping-ref mapping2 "b"))
(test "mapping-for-each"
6
(let ((counter 0))
(mapping-for-each (lambda (key value)
(set! counter (+ counter value)))
mapping1)
counter))
(test "mapping-fold"
6
(mapping-fold (lambda (key value acc)
(+ value acc))
0
mapping1))
(test "mapping-map->list"
(+ (* 1 1) (* 2 2) (* 3 3))
(fold + 0 (mapping-map->list (lambda (key value)
(* value value))
mapping1)))
(test "mapping-filter"
2
(mapping-size (mapping-filter (lambda (key value)
(<= value 2))
mapping1)))
(test "mapping-remove"
1
(mapping-size (mapping-remove (lambda (key value)
(<= value 2))
mapping1)))
(test "mapping-partition"
(list 1 2)
(receive result
(mapping-partition (lambda (key value)
(eq? 'b key))
mapping1)
(map mapping-size result)))
(test-group "Copying and conversion"
(define mapping1 (mapping comparator 'a 1 'b 2 'c 3))
(define mapping2 (alist->mapping comparator '((a . 1) (b . 2) (c . 3))))
(define mapping3 (alist->mapping! (mapping-copy mapping1) '((d . 4) '(c . 5))))
(test "mapping-copy: same size"
3
(mapping-size (mapping-copy mapping1)))
(test "mapping-copy: same comparator"
comparator
(mapping-key-comparator (mapping-copy mapping1)))
(test "mapping->alist"
(cons 'b 2)
(assq 'b (mapping->alist mapping1)))
(test "alist->mapping"
2
(mapping-ref mapping2 'b)
)
(test "alist->mapping!: new key"
4
(mapping-ref mapping3 'd))
(test "alist->mapping!: existing key"
3
(mapping-ref mapping3 'c)))
(test-group "Submappings"
(define mapping1 (mapping comparator 'a 1 'b 2 'c 3))
(define mapping2 (mapping comparator 'a 1 'b 2 'c 3))
(define mapping3 (mapping comparator 'a 1 'c 3))
(define mapping4 (mapping comparator 'a 1 'c 3 'd 4))
(define mapping5 (mapping comparator 'a 1 'b 2 'c 6))
(define mapping6 (mapping (make-comparator (comparator-type-test-predicate comparator)
(comparator-equality-predicate comparator)
(comparator-ordering-predicate comparator)
(comparator-hash-function comparator))
'a 1 'b 2 'c 3))
(test-assert "mapping=?: equal mappings"
(mapping=? comparator mapping1 mapping2))
(test-assert "mapping=?: unequal mappings"
(not (mapping=? comparator mapping1 mapping4)))
(test-assert "mapping=?: different comparators"
(not (mapping=? comparator mapping1 mapping6)))
(test-assert "mapping<?: proper subset"
(mapping<? comparator mapping3 mapping1))
(test-assert "mapping<?: improper subset"
(not (mapping<? comparator mapping3 mapping1 mapping2)))
(test-assert "mapping>?: proper superset"
(mapping>? comparator mapping2 mapping3))
(test-assert "mapping>?: improper superset"
(not (mapping>? comparator mapping1 mapping2 mapping3)))
(test-assert "mapping<=?: subset"
(mapping<=? comparator mapping3 mapping2 mapping1))
(test-assert "mapping<=?: non-matching values"
(not (mapping<=? comparator mapping3 mapping5)))
(test-assert "mapping<=?: not a subset"
(not (mapping<=? comparator mapping2 mapping4)))
(test-assert "mapping>=?: superset"
(mapping>=? comparator mapping4 mapping3))
(test-assert "mapping>=?: not a superset"
(not (mapping>=? comparator mapping5 mapping3))))
(test-group "Set theory operations"
(define mapping1 (mapping comparator 'a 1 'b 2 'c 3))
(define mapping2 (mapping comparator 'a 1 'b 2 'd 4))
(define mapping3 (mapping comparator 'a 1 'b 2))
(define mapping4 (mapping comparator 'a 1 'b 2 'c 4))
(define mapping5 (mapping comparator 'a 1 'c 3))
(define mapping6 (mapping comparator 'd 4 'e 5 'f 6))
(test "mapping-union: new association"
4
(mapping-ref (mapping-union mapping1 mapping2) 'd))
(test "mapping-union: existing association"
3
(mapping-ref (mapping-union mapping1 mapping4) 'c))
(test "mapping-union: three mappings"
6
(mapping-size (mapping-union mapping1 mapping2 mapping6)))
(test "mapping-intersection: existing association"
3
(mapping-ref (mapping-intersection mapping1 mapping4) 'c))
(test "mapping-intersection: removed association"
42
(mapping-ref/default (mapping-intersection mapping1 mapping5) 'b 42))
(test "mapping-difference"
2
(mapping-size (mapping-difference mapping2 mapping6)))
(test "mapping-xor"
4
(mapping-size (mapping-xor mapping2 mapping6))))
(test-group "Additional procedures for mappings with ordered keys"
(define mapping1 (mapping comparator 'a 1 'b 2 'c 3))
(define mapping2 (mapping comparator 'a 1 'b 2 'c 3 'd 4))
(define mapping3 (mapping comparator 'a 1 'b 2 'c 3 'd 4 'e 5))
(define mapping4 (mapping comparator 'a 1 'b 2 'c 3 'd 4 'e 5 'f 6))
(define mapping5 (mapping comparator 'f 6 'g 7 'h 8))
(test "mapping-min-key"
'(a a a a)
(map mapping-min-key (list mapping1 mapping2 mapping3 mapping4)))
(test "mapping-max-key"
'(c d e f)
(map mapping-max-key (list mapping1 mapping2 mapping3 mapping4)))
(test "mapping-min-value"
'(1 1 1 1)
(map mapping-min-value (list mapping1 mapping2 mapping3 mapping4)))
(test "mapping-max-value"
'(3 4 5 6)
(map mapping-max-value (list mapping1 mapping2 mapping3 mapping4)))
(test "mapping-key-predecessor"
'(c d d d)
(map (lambda (mapping)
(mapping-key-predecessor mapping 'e (lambda () #f)))
(list mapping1 mapping2 mapping3 mapping4)))
(test "mapping-key-successor"
'(#f #f e e)
(map (lambda (mapping)
(mapping-key-successor mapping 'd (lambda () #f)))
(list mapping1 mapping2 mapping3 mapping4)))
(test "mapping-range=: contained"
'(4)
(mapping-values (mapping-range= mapping4 'd)))
(test "mapping-range=: not contained"
'()
(mapping-values (mapping-range= mapping4 'z)))
(test "mapping-range<"
'(1 2 3)
(mapping-values (mapping-range< mapping4 'd)))
(test "mapping-range<="
'(1 2 3 4)
(mapping-values (mapping-range<= mapping4 'd)))
(test "mapping-range>"
'(5 6)
(mapping-values (mapping-range> mapping4 'd)))
(test "mapping-range>="
'(4 5 6)
(mapping-values (mapping-range>= mapping4 'd)))
(test "mapping-split"
'((1 2 3) (1 2 3 4) (4) (4 5 6) (5 6))
(receive mappings
(mapping-split mapping4 'd)
(map mapping-values mappings)))
(test "mapping-catenate"
'((a . 1) (b . 2) (c . 3) (d . 4) (e . 5) (f . 6) (g . 7) (h . 8))
(mapping->alist (mapping-catenate comparator mapping2 'e 5 mapping5)))
(test "mapping-map/monotone"
'((1 . 1) (2 . 4) (3 . 9))
(mapping->alist
(mapping-map/monotone (lambda (key value)
(values value (* value value)))
comparator
mapping1)))
(test "mapping-fold/reverse"
'(1 2 3)
(mapping-fold/reverse (lambda (key value acc)
(cons value acc))
'() mapping1)))
(test-group "Comparators"
(define mapping1 (mapping comparator 'a 1 'b 2 'c 3))
(define mapping2 (mapping comparator 'a 1 'b 2 'c 3))
(define mapping3 (mapping comparator 'a 1 'b 2))
(define mapping4 (mapping comparator 'a 1 'b 2 'c 4))
(define mapping5 (mapping comparator 'a 1 'c 3))
(define mapping0 (mapping comparator mapping1 "a" mapping2 "b" mapping3 "c" mapping4 "d" mapping5 "e"))
(test-assert "mapping-comparator"
(comparator? mapping-comparator))
(test "mapping-keyed mapping"
(list "a" "a" "c" "d" "e")
(list (mapping-ref mapping0 mapping1)
(mapping-ref mapping0 mapping2)
(mapping-ref mapping0 mapping3)
(mapping-ref mapping0 mapping4)
(mapping-ref mapping0 mapping5)))
(test-group "Ordering comparators"
(test-assert "=?: equal mappings"
(=? comparator mapping1 mapping2))
(test-assert "=?: unequal mappings"
(not (=? comparator mapping1 mapping4)))
(test-assert "<?: case 1"
(<? comparator mapping3 mapping4))
(test-assert "<?: case 2"
(<? comparator mapping1 mapping4))
(test-assert "<?: case 3"
(<? comparator mapping1 mapping5)))))
(test-end "srfi-146: mappings"))
(define comparator (make-default-comparator))))