Changed check-expect with rackunit

This commit is contained in:
Claudio Maggioni 2018-12-05 15:10:34 +01:00
parent 136548ad2e
commit b910437fa9

View file

@ -5,7 +5,7 @@
(require racket/base
racket/struct
test-engine/racket-tests)
rackunit)
(provide prog-state
prog-state?
@ -64,12 +64,12 @@
; Template function for ProgState
#;(define (fn-for-prog-state w)
#; (... (prog-state-tape w)
#; (prog-state-dp w)
#; (prog-state-tape-len w)
#; (prog-state-output w)
#; (prog-state-program w)
#; (prog-state-ip w)))
#; (... (prog-state-tape w)
#; (prog-state-dp w)
#; (prog-state-tape-len w)
#; (prog-state-output w)
#; (prog-state-program w)
#; (prog-state-ip w)))
; string->program: String -> Program
; Given a string, returns a bf program without any invalid character
@ -83,9 +83,9 @@
(list->string (filter valid-char? (string->list s)))))
; Tests for string->program
(check-expect (string->program "hello") "")
(check-expect (string->program "+ProgState50-[]") "+-[]")
(check-expect (string->program "") "")
(check-equal? (string->program "hello") "")
(check-equal? (string->program "+ProgState50-[]") "+-[]")
(check-equal? (string->program "") "")
; add1-byte: Byte -> Byte
; Given a byte, returns the byte+1 simulating overflows
@ -93,8 +93,8 @@
(modulo (add1 b) 256))
; Tests for add1-byte
(check-expect (add1-byte 255) 0)
(check-expect (add1-byte 254) 255)
(check-equal? (add1-byte 255) 0)
(check-equal? (add1-byte 254) 255)
; sub1-byte: Byte -> Byte
; Given a byte, returns the byte-1 simulating underflows
@ -103,8 +103,8 @@
[else (sub1 b)]))
; Tests for sub1-byte
(check-expect (sub1-byte 0) 255)
(check-expect (sub1-byte 1) 0)
(check-equal? (sub1-byte 0) 255)
(check-equal? (sub1-byte 1) 0)
; program->prog-state: Program -> ProgState
; Given a program, returns the corresponding initial ProgState state.
@ -112,7 +112,7 @@
(prog-state (cons 0 '()) 0 1 "" p 0))
; Tests for program->prog-state
(check-expect
(check-equal?
(program->prog-state "[->+<]") (prog-state (list 0) 0 1 "" "[->+<]" 0))
; tape-help: Tape DP (Byte -> Byte) -> Tape
@ -123,8 +123,8 @@
[else (cons (first tape) (tape-help (rest tape) (sub1 dp) alter))]))
; Tests for tape-help
(check-expect (tape-help (list 0) 0 add1-byte) (list 1))
(check-expect (tape-help (list 0 1 2 3) 2 sub1-byte) (list 0 1 1 3))
(check-equal? (tape-help (list 0) 0 add1-byte) (list 1))
(check-equal? (tape-help (list 0 1 2 3) 2 sub1-byte) (list 0 1 1 3))
; exec-add1: ProgState -> ProgState
; Given a ProgState, returns a new ProgState with the + instruction executed
@ -137,10 +137,10 @@
(add1 (prog-state-ip w))))
; Tests for exec-add1
(check-expect (exec-add1 (prog-state
(check-equal? (exec-add1 (prog-state
(list 1 2 3 4 5 6 7) 3 7 "" "+" 0))
(prog-state (list 1 2 3 5 5 6 7) 3 7 "" "+" 1))
(check-expect (exec-add1 (prog-state
(check-equal? (exec-add1 (prog-state
(list 255 1 2 3) 0 4 "" "+" 0))
(prog-state (list 0 1 2 3) 0 4 "" "+" 1))
@ -155,10 +155,10 @@
(add1 (prog-state-ip w))))
; Tests for exec-sub1
(check-expect (exec-sub1 (prog-state
(check-equal? (exec-sub1 (prog-state
(list 1 2 3 4 5 6 7) 3 7 "" "-" 0))
(prog-state (list 1 2 3 3 5 6 7) 3 7 "" "-" 1))
(check-expect (exec-sub1 (prog-state
(check-equal? (exec-sub1 (prog-state
(list 0 1 2 3) 0 4 "" "-" 0))
(prog-state (list 255 1 2 3) 0 4 "" "-" 1))
@ -175,8 +175,8 @@
(add1 (prog-state-ip w)))))
; Tests for exec-tape-left
(check-error (exec-tape-left (prog-state (list 1 2 3) 0 3 "" "<" 0)))
(check-expect (exec-tape-left (prog-state (list 1 2 3) 2 3 "" "<" 0))
;(check-exn exn:fail? (exec-tape-left (prog-state (list 1 2 3) 0 3 "" "<" 0)))
(check-equal? (exec-tape-left (prog-state (list 1 2 3) 2 3 "" "<" 0))
(prog-state (list 1 2 3) 1 3 "" "<" 1))
; exec-tape-right: ProgState -> ProgState
@ -197,9 +197,9 @@
(add1 (prog-state-ip w)))))
; Tests for exec-tape-right
(check-expect (exec-tape-right (prog-state (list 1 2 3) 0 3 "" ">" 0))
(check-equal? (exec-tape-right (prog-state (list 1 2 3) 0 3 "" ">" 0))
(prog-state (list 1 2 3) 1 3 "" ">" 1))
(check-expect (exec-tape-right (prog-state (list 0 1 2) 2 3 "" ">" 0))
(check-equal? (exec-tape-right (prog-state (list 0 1 2) 2 3 "" ">" 0))
(prog-state (list 0 1 2 0) 3 4 "" ">" 1))
; exec-out: ProgState -> ProgState
@ -217,9 +217,9 @@
(add1 (prog-state-ip w))))
; Tests for exec-out
(check-expect (exec-out (prog-state (list 50) 0 1 "" ".[->+<]" 0))
(check-equal? (exec-out (prog-state (list 50) 0 1 "" ".[->+<]" 0))
(prog-state (list 50) 0 1 "2" ".[->+<]" 1))
(check-expect (exec-out (prog-state (list 65) 0 1 "" ".[->+<]" 0))
(check-equal? (exec-out (prog-state (list 65) 0 1 "" ".[->+<]" 0))
(prog-state (list 65) 0 1 "A" ".[->+<]" 1))
; WalkingDirection can be one of:
@ -254,18 +254,17 @@
(fm-helper (upd-start start) 0))
; Tests for find-first
(check-expect (find-matching "[++++++---->><-]++++]+--" 0 'forward)
(check-equal? (find-matching "[++++++---->><-]++++]+--" 0 'forward)
15)
(check-expect (find-matching "[+++++][+---->><-]++++]+--" 7 'forward)
(check-equal? (find-matching "[+++++][+---->><-]++++]+--" 7 'forward)
17)
(check-expect (find-matching "[+++++[]+---->><-]++++]+--" 17 'backward)
(check-equal? (find-matching "[+++++[]+---->><-]++++]+--" 17 'backward)
0)
; exec-loop-start: ProgState -> ProgState
; Given a ProgState, returns a new ProgState with the [ instruction executed
(define (exec-loop-start w)
(local [(define jump
(zero? (list-ref (prog-state-tape w) (prog-state-dp w))))]
(define jump (zero? (list-ref (prog-state-tape w) (prog-state-dp w))))
(prog-state
(prog-state-tape w)
(prog-state-dp w)
@ -274,21 +273,20 @@
(prog-state-program w)
(add1 (if jump
(find-matching (prog-state-program w) (prog-state-ip w) 'forward)
(prog-state-ip w))))))
(prog-state-ip w)))))
; Tests for exec-loop-start
(check-expect (exec-loop-start
(check-equal? (exec-loop-start
(prog-state '(0) 0 1 "" "[++--]++--+-[]" 0))
(prog-state '(0) 0 1 "" "[++--]++--+-[]" 6))
(check-expect (exec-loop-start
(check-equal? (exec-loop-start
(prog-state '(1) 0 1 "" "[++--]++--+-[]" 0))
(prog-state '(1) 0 1 "" "[++--]++--+-[]" 1))
; exec-loop-end: ProgState -> ProgState
; Given a ProgState, returns a new ProgState with the ] instruction executed
(define (exec-loop-end w)
(local [(define jump
(not (zero? (list-ref (prog-state-tape w) (prog-state-dp w)))))]
(define jump (not (zero? (list-ref (prog-state-tape w) (prog-state-dp w)))))
(prog-state
(prog-state-tape w)
(prog-state-dp w)
@ -297,27 +295,37 @@
(prog-state-program w)
(add1 (if jump
(find-matching (prog-state-program w) (prog-state-ip w) 'backward)
(prog-state-ip w))))))
(prog-state-ip w)))))
; Tests for exec-loop-end
(check-expect (exec-loop-end
(check-equal? (exec-loop-end
(prog-state '(0) 0 1 "" "[++--]++--+-[]" 5))
(prog-state '(0) 0 1 "" "[++--]++--+-[]" 6))
(check-expect (exec-loop-end
(check-equal? (exec-loop-end
(prog-state '(1) 0 1 "" "[++--]++--+-[]" 5))
(prog-state '(1) 0 1 "" "[++--]++--+-[]" 1))
; insert-in-tape: DataTape Byte Nat -> DataTape
; Given a datatape, a byte to insert and an index, returns a datatape with the
; cell at the position pointed by the index populated with the byte to insert.
(define (insert-in-tape dt val n)
(cond [(zero? n) (cons val (rest dt))]
[(empty? n) (error "Cannot insert in non-existing positive position")]
[else (cons (first dt) (insert-in-tape (rest dt) val (sub1 n)))]))
; Tests insert-in-tape
(check-equal? (insert-in-tape (list 0 1 2 3 4) 30 0) (list 30 1 2 3 4))
(check-equal? (insert-in-tape (list 0 1 2 3 4) 30 4) (list 0 1 2 3 30))
; exec-in: ProgState ((Byte -> _) -> _) (ProgState -> _) -> _
; Given a ProgState, a function that takes a callback function requiring a Byte
; and a function which takes the new ProgState, calls done with the input
; provided by get-input (provided by the call to the callback given in
; get-input).
(define (exec-in w get-input done)
; got-input: Byte -> _
; Given a byte, updates the ProgState and calls `done` with the new ProgState
(define (got-input byte)
(done (prog-state
(insert-in-tape (prog-state-tape w) byte (prog-state-dp w))
@ -326,33 +334,67 @@
(prog-state-output w)
(prog-state-program w)
(add1 (prog-state-ip w)))))
(get-input got-input))
; execute: ProgState ((ProgState) -> _) ((Byte -> _) -> _) -> ProgState
; Given an initial ProgState state, calls done when the final ProgState is ready
; to execute the program.
(define (execute w done get-input)
(define program-len (string-length (prog-state-program w)))
(cond [(>= (prog-state-ip w) program-len) (done w)]
[else
(define inst (string-ref (prog-state-program w) (prog-state-ip w)))
(cond [(char=? inst #\,)
(exec-in w get-input (lambda (ps) (execute ps done get-input)))]
[else (execute (cond [(char=? inst #\+) (exec-add1 w)]
; Tests for get-input
(test-begin
(exec-in
(prog-state (list 0) 0 1 "," "" 0)
(lambda (done) (done 50))
(lambda (w) (check-equal? w (prog-state (list 50) 0 1 "," "" 1)))))
; execute: ProgState (ProgState -> _) ((Byte -> _) -> _) -> _
; Given an initial ProgState state, calls done when the final ProgState has been
; computed by executing the program
(define (execute prog done get-input)
; execute-sync: Char ProgState -> ProgState
; Given a synchronous instruction as a Char and the current ProgState,
; returns the new ProgState by executing the instruction.
(define (execute-sync inst w)
(cond [(char=? inst #\+) (exec-add1 w)]
[(char=? inst #\-) (exec-sub1 w)]
[(char=? inst #\<) (exec-tape-left w)]
[(char=? inst #\>) (exec-tape-right w)]
[(char=? inst #\[) (exec-loop-start w)]
[(char=? inst #\]) (exec-loop-end w)]
[(char=? inst #\.) (exec-out w)]) done get-input)])]))
[(char=? inst #\.) (exec-out w)]))
; The program length in characters
(define program-len (string-length (prog-state-program prog)))
; execute-help: ProgState -> _
; Helper function for `execute`. Given an initial ProgState state, calls done
; when the final ProgState is ready.
(define (execute-help w)
(cond [(>= (prog-state-ip w) program-len) (done w)]
[else
; Fetch current instruction
(define inst (string-ref (prog-state-program w) (prog-state-ip w)))
(cond [(char=? inst #\,)
(exec-in w get-input (lambda (ps) (execute ps done get-input)))]
[else (execute (execute-sync inst w) done get-input)])]))
(execute-help prog))
; Tests for execute
(check-expect (execute (prog-state (list 0) 0 3 "" "" 0))
(prog-state (list 0) 0 3 "" "" 0))
; assert that 5+2 to ASCII = "7" (WTF)
(check-expect (execute (prog-state (list 0) 0 1 ""
"++>+++++[<+>-]++++++++[<++++++>-]<." 0))
(prog-state (list 55 0) 0 2 "7"
"++>+++++[<+>-]++++++++[<++++++>-]<." 35))
; Run tests
(test)
(test-begin
(execute
(prog-state (list 0) 0 3 "" "" 0)
(lambda (w) (check-equal? w (prog-state (list 0) 0 3 "" "" 0)))
(lambda (done) (done 0))))
; assert that 5+2 to ASCII = "7"
(test-begin
(execute
(prog-state (list 0) 0 1 "" "++>+++++[<+>-]++++++++[<++++++>-]<." 0)
(lambda (w)
(check-equal? w (prog-state (list 55 0) 0 2 "7"
"++>+++++[<+>-]++++++++[<++++++>-]<." 35)))
(lambda (done) (done 0))))
(test-begin
(execute
(prog-state (list 0) 0 1 "" ",." 0)
(lambda (w) (check-equal? w (prog-state (list 49) 0 1 "1" ",." 2)))
(lambda (done) (done 49)))) ; ASCII for "1"