# Copyright (c) 2023 Calvin Rose & contributors # # 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. (import ./helper :prefix "" :exit true) (start-suite 8) ### ### Compiling brainfuck to Janet. ### (def- bf-peg "Peg for compiling brainfuck into a Janet source ast." (peg/compile ~{:+ (/ '(some "+") ,(fn [x] ~(+= (DATA POS) ,(length x)))) :- (/ '(some "-") ,(fn [x] ~(-= (DATA POS) ,(length x)))) :> (/ '(some ">") ,(fn [x] ~(+= POS ,(length x)))) :< (/ '(some "<") ,(fn [x] ~(-= POS ,(length x)))) :. (* "." (constant (prinf "%c" (get DATA POS)))) :loop (/ (* "[" :main "]") ,(fn [& captures] ~(while (not= (get DATA POS) 0) ,;captures))) :main (any (+ :s :loop :+ :- :> :< :.))})) (defn bf "Run brainfuck." [text] (eval ~(let [DATA (array/new-filled 100 0)] (var POS 50) ,;(peg/match bf-peg text)))) (defn test-bf "Test some bf for expected output." [input output] (def b @"") (with-dyns [:out b] (bf input)) (assert (= (string output) (string b)) (string "bf input '" input "' failed, expected " (describe output) ", got " (describe (string b)) "."))) (test-bf "++++++++[>++++[>++>+++>+++>+<<<<-]>+>+>->>+[<]<-]>>.>---.+++++++..+++.>>.<-.<.+++.------.--------.>>+.>++." "Hello World!\n") (test-bf ">++++++++[-<+++++++++>]<.>>+>-[+]++>++>+++[>[->+++<<+++>]<<]>-----.>-> +++..+++.>-.<<+[>[+>+]>>]<--------------.>>.+++.------.--------.>+.>+." "Hello World!\n") (test-bf "+[+[<<<+>>>>]+<-<-<<<+<++]<<.<++.<++..+++.<<++.<---.>>.>.+++.------.>-.>>--." "Hello, World!") # Prompts and Labels (assert (= 10 (label a (for i 0 10 (if (= i 5) (return a 10))))) "label 1") (defn recur [lab x y] (when (= x y) (return lab :done)) (def res (label newlab (recur (or lab newlab) (+ x 1) y))) (if lab :oops res)) (assert (= :done (recur nil 0 10)) "label 2") (assert (= 10 (prompt :a (for i 0 10 (if (= i 5) (return :a 10))))) "prompt 1") (defn- inner-loop [i] (if (= i 5) (return :a 10))) (assert (= 10 (prompt :a (for i 0 10 (inner-loop i)))) "prompt 2") (defn- inner-loop2 [i] (try (if (= i 5) (error 10)) ([err] (return :a err)))) (assert (= 10 (prompt :a (for i 0 10 (inner-loop2 i)))) "prompt 3") # Match checks (assert (= :hi (match nil nil :hi)) "match 1") (assert (= :hi (match {:a :hi} {:a a} a)) "match 2") (assert (= nil (match {:a :hi} {:a a :b b} a)) "match 3") (assert (= nil (match [1 2] [a b c] a)) "match 4") (assert (= 2 (match [1 2] [a b] b)) "match 5") (assert (= [2 :a :b] (match [1 2 :a :b] [o & rest] rest)) "match 6") (assert (= [] (match @[:a] @[x & r] r :fallback)) "match 7") (assert (= :fallback (match @[1] @[x y & r] r :fallback)) "match 8") (assert (= [1 2 3 4] (match @[1 2 3 4] @[x y z & r] [x y z ;r] :fallback)) "match 9") # And/or checks (assert (= false (and false false)) "and 1") (assert (= false (or false false)) "or 1") # #300 Regression test # Just don't segfault (assert (peg/match '{:main (replace "S" {"S" :spade})} "S7") "regression #300") # Test cases for #293 (assert (= :yes (match [1 2 3] [_ a _] :yes :no)) "match wildcard 1") (assert (= :no (match [1 2 3] [__ a __] :yes :no)) "match wildcard 2") (assert (= :yes (match [1 2 [1 2 3]] [_ a [_ _ _]] :yes :no)) "match wildcard 3") (assert (= :yes (match [1 2 3] (_ (even? 2)) :yes :no)) "match wildcard 4") (assert (= :yes (match {:a 1} {:a _} :yes :no)) "match wildcard 5") (assert (= false (match {:a 1 :b 2 :c 3} {:a a :b _ :c _ :d _} :no {:a _ :b _ :c _} false :no)) "match wildcard 6") (assert (= nil (match {:a 1 :b 2 :c 3} {:a a :b _ :c _ :d _} :no {:a _ :b _ :c _} nil :no)) "match wildcard 7") (assert (= "t" (match [true nil] [true _] "t")) "match wildcard 8") # Regression #301 (def b (buffer/new-filled 128 0x78)) (assert (= 38 (length (buffer/blit @"" b -1 90))) "buffer/blit 1") (def a @"abcdefghijklm") (assert (deep= @"abcde" (buffer/blit @"" a -1 0 5)) "buffer/blit 2") (assert (deep= @"bcde" (buffer/blit @"" a -1 1 5)) "buffer/blit 3") (assert (deep= @"cde" (buffer/blit @"" a -1 2 5)) "buffer/blit 4") (assert (deep= @"de" (buffer/blit @"" a -1 3 5)) "buffer/blit 5") # chr (assert (= (chr "a") 97) "chr 1") # Detaching closure over non resumable fiber. (do (defn f1 [a] (defn f1 [] (++ (a 0))) (defn f2 [] (++ (a 0))) (error [f1 f2])) (def [_ [f1 f2]] (protect (f1 @[0]))) # At time of writing, mark phase can detach closure envs. (gccollect) (assert (= 1 (f1)) "detach-non-resumable-closure 1") (assert (= 2 (f2)) "detach-non-resumable-closure 2")) # Marshal closure over non resumable fiber. (do (defn f1 [a] (defn f1 [] (++ (a 0))) (defn f2 [] (++ (a 0))) (error [f1 f2])) (def [_ tup] (protect (f1 @[0]))) (def [f1 f2] (unmarshal (marshal tup make-image-dict) load-image-dict)) (assert (= 1 (f1)) "marshal-non-resumable-closure 1") (assert (= 2 (f2)) "marshal-non-resumable-closure 2")) # Marshal closure over currently alive fiber. (do (defn f1 [a] (defn f1 [] (++ (a 0))) (defn f2 [] (++ (a 0))) (marshal [f1 f2] make-image-dict)) (def [f1 f2] (unmarshal (f1 @[0]) load-image-dict)) (assert (= 1 (f1)) "marshal-live-closure 1") (assert (= 2 (f2)) "marshal-live-closure 2")) (do (var a 1) (defn b [x] (+ a x)) (def c (unmarshal (marshal b))) (assert (= 2 (c 1)) "marshal-on-stack-closure 1")) # Reduce2 (assert (= (reduce + 0 (range 1 10)) (reduce2 + (range 10))) "reduce2 1") (assert (= (reduce * 1 (range 2 10)) (reduce2 * (range 1 10))) "reduce2 2") (assert (= nil (reduce2 * [])) "reduce2 3") # Accumulate (assert (deep= (accumulate + 0 (range 5)) @[0 1 3 6 10]) "accumulate 1") (assert (deep= (accumulate2 + (range 5)) @[0 1 3 6 10]) "accumulate2 1") (assert (deep= @[] (accumulate2 + [])) "accumulate2 2") (assert (deep= @[] (accumulate 0 + [])) "accumulate 2") # Perm strings (assert (= (os/perm-int "rwxrwxrwx") 8r777) "perm 1") (assert (= (os/perm-int "rwxr-xr-x") 8r755) "perm 2") (assert (= (os/perm-int "rw-r--r--") 8r644) "perm 3") (assert (= (band (os/perm-int "rwxrwxrwx") 8r077) 8r077) "perm 4") (assert (= (band (os/perm-int "rwxr-xr-x") 8r077) 8r055) "perm 5") (assert (= (band (os/perm-int "rw-r--r--") 8r077) 8r044) "perm 6") (assert (= (os/perm-string 8r777) "rwxrwxrwx") "perm 7") (assert (= (os/perm-string 8r755) "rwxr-xr-x") "perm 8") (assert (= (os/perm-string 8r644) "rw-r--r--") "perm 9") # Issue #336 cases - don't segfault (assert-error "unmarshal errors 1" (unmarshal @"\xd6\xb9\xb9")) (assert-error "unmarshal errors 2" (unmarshal @"\xd7bc")) (assert-error "unmarshal errors 3" (unmarshal "\xd3\x01\xd9\x01\x62\xcf\x03\x78\x79\x7a" load-image-dict)) (assert-error "unmarshal errors 4" (unmarshal @"\xD7\xCD\0e/p\x98\0\0\x03\x01\x01\x01\x02\0\0\x04\0\xCEe/p../tools \0\0\0/afl\0\0\x01\0erate\xDE\xDE\xDE\xDE\xDE\xDE\xDE\xDE\xDE\xDE \xA8\xDE\xDE\xDE\xDE\xDE\xDE\0\0\0\xDE\xDE_unmarshal_testcase3.ja neldb\0\0\0\xD8\x05printG\x01\0\xDE\xDE\xDE'\x03\0marshal_tes/\x02 \0\0\0\0\0*\xFE\x01\04\x02\0\0'\x03\0\r\0\r\0\r\0\r" load-image-dict)) (gccollect) # in vs get regression (assert (nil? (first @"")) "in vs get 1") (assert (nil? (last @"")) "in vs get 1") # For undefined behavior sanitizer 0xf&1fffFFFF # Tuple comparison (assert (< [1 2 3] [2 2 3]) "tuple comparison 1") (assert (< [1 2 3] [2 2]) "tuple comparison 2") (assert (< [1 2 3] [2 2 3 4]) "tuple comparison 3") (assert (< [1 2 3] [1 2 3 4]) "tuple comparison 4") (assert (< [1 2 3] [1 2 3 -1]) "tuple comparison 5") (assert (> [1 2 3] [1 2]) "tuple comparison 6") # Lenprefix rule (def peg (peg/compile ~(* (lenprefix (/ (* '(any (if-not ":" 1)) ":") ,scan-number) 1) -1))) (assert (peg/match peg "5:abcde") "lenprefix 1") (assert (not (peg/match peg "5:abcdef")) "lenprefix 2") (assert (not (peg/match peg "5:abcd")) "lenprefix 3") # Packet capture (def peg2 (peg/compile ~{# capture packet length in tag :header-len :packet-header (* (/ ':d+ ,scan-number :header-len) ":") # capture n bytes from a backref :header-len :packet-body '(lenprefix (-> :header-len) 1) # header, followed by body, and drop the :header-len capture :packet (/ (* :packet-header :packet-body) ,|$1) # any exact seqence of packets (no extra characters) :main (* (any :packet) -1)})) (assert (deep= @["a" "bb" "ccc"] (peg/match peg2 "1:a2:bb3:ccc")) "lenprefix 4") (assert (deep= @["a" "bb" "cccccc"] (peg/match peg2 "1:a2:bb6:cccccc")) "lenprefix 5") (assert (= nil (peg/match peg2 "1:a2:bb:5:cccccc")) "lenprefix 6") (assert (= nil (peg/match peg2 "1:a2:bb:7:cccccc")) "lenprefix 7") # Regression #400 (assert (= nil (while (and false false) (fn []) (error "should not happen"))) "strangeloop 1") (assert (= nil (while (not= nil nil) (fn []) (error "should not happen"))) "strangeloop 2") # Issue #412 (assert (peg/match '(* "a" (> -1 "a") "b") "abc") "lookhead does not move cursor") (def peg3 ~{:main (* "(" (thru ")"))}) (def peg4 (peg/compile ~(* (thru "(") '(to ")")))) (assert (peg/match peg3 "(12345)") "peg thru 1") (assert (not (peg/match peg3 " (12345)")) "peg thru 2") (assert (not (peg/match peg3 "(12345")) "peg thru 3") (assert (= "abc" (0 (peg/match peg4 "123(abc)"))) "peg thru/to 1") (assert (= "abc" (0 (peg/match peg4 "(abc)"))) "peg thru/to 2") (assert (not (peg/match peg4 "123(abc")) "peg thru/to 3") (def peg5 (peg/compile [3 "abc"])) (assert (:match peg5 "abcabcabc") "repeat alias 1") (assert (:match peg5 "abcabcabcac") "repeat alias 2") (assert (not (:match peg5 "abcabc")) "repeat alias 3") (defn check-jdn [x] (assert (deep= (parse (string/format "%j" x)) x) "round trip jdn")) (check-jdn 0) (check-jdn nil) (check-jdn []) (check-jdn @[[] [] 1231 9.123123 -123123 0.1231231230001]) (check-jdn -0.123123123123) (check-jdn 12837192371923) (check-jdn "a string") (check-jdn @"a buffer") # Issue 428 (var result nil) (defn f [] (yield {:a :ok})) (assert-no-error "issue 428 1" (loop [{:a x} :in (fiber/new f)] (set result x))) (assert (= result :ok) "issue 428 2") # Inline 3 argument get (assert (= 10 (do (var a 10) (set a (get '{} :a a)))) "inline get 1") # Keyword and Symbol slice (assert (= :keyword (keyword/slice "some_keyword_slice" 5 12)) "keyword slice") (assert (= 'symbol (symbol/slice "some_symbol_slice" 5 11)) "symbol slice") # Peg find and find-all (def p "/usr/local/bin/janet") (assert (= (peg/find '"n/" p) 13) "peg find 1") (assert (not (peg/find '"t/" p)) "peg find 2") (assert (deep= (peg/find-all '"/" p) @[0 4 10 14]) "peg find-all") # Peg replace and replace-all (var ti 0) (defn check-replacer [x y z] (assert (= (string/replace x y z) (string (peg/replace x y z))) "replacer test replace") (assert (= (string/replace-all x y z) (string (peg/replace-all x y z))) "replacer test replace-all")) (check-replacer "abc" "Z" "abcabcabcabasciabsabc") (check-replacer "abc" "Z" "") (check-replacer "aba" "ZZZZZZ" "ababababababa") (check-replacer "aba" "" "ababababababa") # Peg bug (assert (deep= @[] (peg/match '(any 1) @"")) "peg empty pattern 1") (assert (deep= @[] (peg/match '(any 1) (buffer))) "peg empty pattern 2") (assert (deep= @[] (peg/match '(any 1) "")) "peg empty pattern 3") (assert (deep= @[] (peg/match '(any 1) (string))) "peg empty pattern 4") (assert (deep= @[] (peg/match '(* "test" (any 1)) @"test")) "peg empty pattern 5") (assert (deep= @[] (peg/match '(* "test" (any 1)) (buffer "test"))) "peg empty pattern 6") # number pattern (assert (deep= @[111] (peg/match '(number :d+) "111")) "simple number capture 1") (assert (deep= @[255] (peg/match '(number :w+) "0xff")) "simple number capture 2") # quoted match test (assert (= :yes (match 'john 'john :yes _ :nope)) "quoted literal match 1") (assert (= :nope (match 'john ''john :yes _ :nope)) "quoted literal match 2") (end-suite)