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#lang racket
(require "graph.rkt")
(provide bag-stack@ bag-fifo@)
;; struktura danych - stos
(define-unit bag-stack@
(import)
(export bag^)
(define (bag? b)
(and (cons? b)
(eq? (car b) 'stack)))
(define empty-bag (cons 'stack null))
(define (bag-empty? b)
(null? (cdr b)))
(define (bag-insert b val)
(cons 'stack (cons val (cdr b))))
(define (bag-peek b)
(cadr b))
(define (bag-remove b)
(cons 'stack (cddr b)))
)
;; struktura danych - kolejka FIFO
(define-unit bag-fifo@
(import)
(export bag^)
(define (bag? b)
(and (list? b)
(eq? (length b) 3)
(eq? (first b) 'queue)))
(define empty-bag
(list 'queue null null))
(define (bag-empty? b)
(and (null? (second b)) (null? (third b))))
(define (bag-insert b val)
(list 'queue (cons val (second b)) (third b)))
(define (bag-peek b)
(let ((insq (second b))
(popq (third b)))
(cond
[(null? popq) (last insq)]
[else (first popq)])))
(define (bag-remove b)
(let ((insq (second b))
(popq (third b)))
(cond
[(null? popq) (list 'queue null (cdr (reverse insq)))]
[else (list 'queue insq (cdr popq))])))
)
;; otwarcie komponentów stosu i kolejki
(define-values/invoke-unit bag-stack@
(import)
(export (prefix stack: bag^)))
(define-values/invoke-unit bag-fifo@
(import)
(export (prefix fifo: bag^)))
;; testy w Quickchecku
(require quickcheck)
;; liczba zapytań na test quickchecka
(define TESTS 1000)
;; TESTY DO KOLEJKI
;; xs to lista jakichś liczb, queries to rodzaj wykonywanych operacji
;; 0 - popuje na listę pops
;; 1 - insertuje na queue
;; jest nie ma nic na kolejce/stosie i dostajemy 0, to nic nie robimy
;; jesli queries albo xs są puste to po prostu kończymy obsługiwanie zapytań
;; na koncu sprawdzamy, czy (reverse pops) jest prefiksem xs
(define (check-queue xs queries)
(define (iter xs queries queue pops)
;; (display queue)
;; (newline)
(if (or (null? queries) (null? xs))
(reverse pops)
(cond
[(and (eq? (car queries) 0) (not (fifo:bag-empty? queue)))
(iter xs (cdr queries) (fifo:bag-remove queue) (cons (fifo:bag-peek queue) pops))]
[else (iter (cdr xs) (cdr queries) (fifo:bag-insert queue (car xs)) pops)])))
(define (is-prefix? xs ys)
(if (null? xs)
#t
(and (equal? (car xs) (car ys)) (is-prefix? (cdr xs) (cdr ys)))))
(is-prefix? (iter xs queries fifo:empty-bag null) xs))
;; sprawdzenie czy nasza funkcja testująca w ogóle działa
(define check-queue-test (lambda () (check-queue (list 1 2 3 4 5 6 7 8) (list 0 1 1 1 0 0 0 1 1 0 1 0 1 0 0))))
;; testowanie kolejki
(define-unit queue-tests@
(import bag^)
(export)
(quickcheck
(property ([xs (choose-list (choose-real -100000 100000) TESTS)]
[ops (choose-list (choose-integer 0 1) TESTS)])
(check-queue xs ops))))
(invoke-unit queue-tests@ (import (prefix fifo: bag^)))
;; TESTY DO STOSU
;; niestety tutaj nie jest tak kolorowo, na kolejce
;; dokładnie wiemy jaka jest koljeność popowanych, na stosie to dosyć dowolne.
;; Z drugiej strony jego implementacja jest dużo prostsza, więc testy też nie muszą
;; być bardzo rygorystyczne.
(define (check-stack xs)
(define (insert-list stack xs)
(if (null? xs)
stack
(insert-list (stack:bag-insert stack (car xs)) (cdr xs))))
(define (clear-stack stack pops)
(if (stack:bag-empty? stack)
pops
(clear-stack (stack:bag-remove stack) (cons (stack:bag-peek stack) pops))))
(equal? xs (clear-stack (insert-list stack:empty-bag xs) null)))
;; testowanie stacka
(define-unit stack-tests@
(import bag^)
(export)
(quickcheck
(property ([xs (choose-list (choose-real -100000 100000) TESTS)])
(check-stack xs))))
(invoke-unit stack-tests@ (import (prefix stack: bag^)))
;; testy kolejek i stosów
(define-unit bag-tests@
(import bag^)
(export)
;; test przykładowy: jeśli do pustej struktury dodamy element
;; i od razu go usuniemy, wynikowa struktura jest pusta
(quickcheck
(property ([s arbitrary-symbol])
(bag-empty? (bag-remove (bag-insert empty-bag s)))))
;; Sprawdzenie własności wspólnych dla obu struktur
(quickcheck
(property ([s arbitrary-symbol])
(equal? s (bag-peek (bag-insert empty-bag s)))))
)
;; uruchomienie testów dla obu struktur danych
(invoke-unit bag-tests@ (import (prefix stack: bag^)))
(invoke-unit bag-tests@ (import (prefix fifo: bag^)))
;; TESTOWANIE PRZESZUKIWAŃ
;; otwarcie komponentu grafu
(define-values/invoke-unit/infer simple-graph@)
;; otwarcie komponentów przeszukiwania
;; w głąb i wszerz
(define-values/invoke-unit graph-search@
(import graph^ (prefix stack: bag^))
(export (prefix dfs: graph-search^)))
(define-values/invoke-unit graph-search@
(import graph^ (prefix fifo: bag^))
(export (prefix bfs: graph-search^)))
;; graf testowy
(define test-graph
(graph
(list 1 2 3 4)
(list (edge 1 3)
(edge 1 2)
(edge 2 4))))
(define test-graph2
(graph (list 1) null))
(define test-graph3
(graph (list 1 2 3 4 5 6 7 8 9 10)
(list (edge 1 2)
(edge 1 3)
(edge 2 3)
(edge 3 2)
(edge 3 5)
(edge 6 5)
(edge 5 7)
(edge 5 8)
(edge 7 9)
(edge 8 9)
(edge 9 10)
(edge 1 10)
(edge 10 1))))
(define test-graph4
(graph (list 1 2 3 4 5 6)
(list (edge 1 2)
(edge 2 3)
(edge 3 4)
(edge 4 5)
(edge 5 6))))
;; uruchomienie przeszukiwania na przykładowym grafie
(bfs:search test-graph 1)
(dfs:search test-graph 1)
(bfs:search test-graph2 1)
(dfs:search test-graph2 1)
(bfs:search test-graph3 1)
(dfs:search test-graph3 1)
(bfs:search test-graph3 6)
(dfs:search test-graph3 6)
(bfs:search test-graph4 1)
(dfs:search test-graph4 1)
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