mirror of
https://github.com/janet-lang/janet
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290 lines
9.7 KiB
Plaintext
290 lines
9.7 KiB
Plaintext
# Copyright (c) 2019 Calvin Rose & contributors
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#
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# Permission is hereby granted, free of charge, to any person obtaining a copy
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# of this software and associated documentation files (the "Software"), to
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# deal in the Software without restriction, including without limitation the
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# rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
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# sell copies of the Software, and to permit persons to whom the Software is
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# furnished to do so, subject to the following conditions:
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#
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# The above copyright notice and this permission notice shall be included in
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# all copies or substantial portions of the Software.
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#
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# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
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# IN THE SOFTWARE.
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(import ./helper :prefix "" :exit true)
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(start-suite 7)
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# Using a large test grammar
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(def- core-env (table/getproto (fiber/getenv (fiber/current))))
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(def- specials {'fn true
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'var true
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'do true
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'while true
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'def true
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'splice true
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'set true
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'unquote true
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'quasiquote true
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'quote true
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'if true})
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(defn- check-number [text] (and (scan-number text) text))
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(defn capture-sym
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[text]
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(def sym (symbol text))
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[(if (or (core-env sym) (specials sym)) :coresym :symbol) text])
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(def grammar
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~{:ws (set " \v\t\r\f\n\0")
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:readermac (set "';~,")
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:symchars (+ (range "09" "AZ" "az" "\x80\xFF") (set "!$%&*+-./:<?=>@^_|"))
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:token (some :symchars)
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:hex (range "09" "af" "AF")
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:escape (* "\\" (+ (set "ntrvzf0e\"\\")
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(* "x" :hex :hex)
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(error (constant "bad hex escape"))))
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:comment (/ '(* "#" (any (if-not (+ "\n" -1) 1))) (constant :comment))
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:symbol (/ ':token ,capture-sym)
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:keyword (/ '(* ":" (any :symchars)) (constant :keyword))
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:constant (/ '(+ "true" "false" "nil") (constant :constant))
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:bytes (* "\"" (any (+ :escape (if-not "\"" 1))) "\"")
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:string (/ ':bytes (constant :string))
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:buffer (/ '(* "@" :bytes) (constant :string))
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:long-bytes {:delim (some "`")
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:open (capture :delim :n)
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:close (cmt (* (not (> -1 "`")) (-> :n) ':delim) ,=)
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:main (drop (* :open (any (if-not :close 1)) :close))}
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:long-string (/ ':long-bytes (constant :string))
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:long-buffer (/ '(* "@" :long-bytes) (constant :string))
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:number (/ (cmt ':token ,check-number) (constant :number))
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:raw-value (+ :comment :constant :number :keyword
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:string :buffer :long-string :long-buffer
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:parray :barray :ptuple :btuple :struct :dict :symbol)
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:value (* (? '(some (+ :ws :readermac))) :raw-value '(any :ws))
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:root (any :value)
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:root2 (any (* :value :value))
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:ptuple (* '"(" :root (+ '")" (error "")))
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:btuple (* '"[" :root (+ '"]" (error "")))
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:struct (* '"{" :root2 (+ '"}" (error "")))
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:parray (* '"@" :ptuple)
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:barray (* '"@" :btuple)
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:dict (* '"@" :struct)
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:main (+ :root (error ""))})
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(def p (peg/compile grammar))
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# Just make sure is valgrind clean.
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(def p (-> p make-image load-image))
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(assert (peg/match p "abc") "complex peg grammar 1")
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(assert (peg/match p "[1 2 3 4]") "complex peg grammar 2")
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#
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# fn compilation special
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#
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(defn myfn1 [[x y z] & more]
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more)
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(defn myfn2 [head & more]
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more)
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(assert (= (myfn1 [1 2 3] 4 5 6) (myfn2 [:a :b :c] 4 5 6)) "destructuring and varargs")
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#
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# Test propagation of signals via fibers
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#
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(def f (fiber/new (fn [] (error :abc) 1) :ei))
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(def res (resume f))
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(assert-error :abc (propagate res f) "propagate 1")
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# table/clone
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(defn check-table-clone [x msg]
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(assert (= (table/to-struct x) (table/to-struct (table/clone x))) msg))
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(check-table-clone @{:a 123 :b 34 :c :hello : 945 0 1 2 3 4 5} "table/clone 1")
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(check-table-clone @{} "table/clone 1")
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# Issue #142
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(def buffer (tarray/buffer 8))
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(def buffer-float64-view (tarray/new :float64 1 1 0 buffer))
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(def buffer-uint32-view (tarray/new :uint32 2 1 0 buffer))
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(set (buffer-uint32-view 1) 0xfffe9234)
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(set (buffer-uint32-view 0) 0x56789abc)
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(assert (buffer-float64-view 0) "issue #142 nanbox hijack 1")
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(assert (= (type (buffer-float64-view 0)) :number) "issue #142 nanbox hijack 2")
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(assert (= (type (unmarshal @"\xC8\xbc\x9axV4\x92\xfe\xff")) :number) "issue #142 nanbox hijack 3")
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# Make sure Carriage Returns don't end up in doc strings.
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(assert (not (string/find "\r" (get ((fiber/getenv (fiber/current)) 'cond) :doc ""))) "no \\r in doc strings")
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# module/expand-path regression
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(with-dyns [:syspath ".janet/.janet"]
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(assert (= (string (module/expand-path "hello" ":sys:/:all:.janet"))
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".janet/.janet/hello.janet") "module/expand-path 1"))
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# comp should be variadic
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(assert (= 10 ((comp +) 1 2 3 4)) "variadic comp 1")
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(assert (= 11 ((comp inc +) 1 2 3 4)) "variadic comp 2")
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(assert (= 12 ((comp inc inc +) 1 2 3 4)) "variadic comp 3")
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(assert (= 13 ((comp inc inc inc +) 1 2 3 4)) "variadic comp 4")
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(assert (= 14 ((comp inc inc inc inc +) 1 2 3 4)) "variadic comp 5")
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(assert (= 15 ((comp inc inc inc inc inc +) 1 2 3 4)) "variadic comp 6")
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(assert (= 16 ((comp inc inc inc inc inc inc +) 1 2 3 4)) "variadic comp 7")
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# Function shorthand
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(assert (= (|(+ 1 2 3)) 6) "function shorthand 1")
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(assert (= (|(+ 1 2 3 $) 4) 10) "function shorthand 2")
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(assert (= (|(+ 1 2 3 $0) 4) 10) "function shorthand 3")
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(assert (= (|(+ $0 $0 $0 $0) 4) 16) "function shorthand 4")
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(assert (= (|(+ $ $ $ $) 4) 16) "function shorthand 5")
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(assert (= (|4) 4) "function shorthand 6")
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(assert (= (((|||4))) 4) "function shorthand 7")
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(assert (= (|(+ $1 $1 $1 $1) 2 4) 16) "function shorthand 8")
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(assert (= (|(+ $0 $1 $3 $2 $6) 0 1 2 3 4 5 6) 12) "function shorthand 9")
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(assert (= (|(+ $0 $99) ;(range 100)) 99) "function shorthand 10")
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# Simple function break
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(debug/fbreak map 1)
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(def f (fiber/new (fn [] (map inc [1 2 3])) :a))
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(resume f)
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(assert (= :debug (fiber/status f)) "debug/fbreak")
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(debug/unfbreak map 1)
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(map inc [1 2 3])
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(defn idx= [x y] (= (tuple/slice x) (tuple/slice y)))
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# Simple take, drop, etc. tests.
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(assert (idx= (take 10 (range 100)) (range 10)) "take 10")
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(assert (idx= (drop 10 (range 100)) (range 10 100)) "drop 10")
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# Printing to buffers
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(def out-buf @"")
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(def err-buf @"")
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(with-dyns [:out out-buf :err err-buf]
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(print "Hello")
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(prin "hi")
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(eprint "Sup")
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(eprin "not much."))
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(assert (= (string out-buf) "Hello\nhi") "print and prin to buffer 1")
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(assert (= (string err-buf) "Sup\nnot much.") "eprint and eprin to buffer 1")
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(assert (= (string '()) (string [])) "empty bracket tuple literal")
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# with-vars
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(var abc 123)
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(assert (= 356 (with-vars [abc 456] (- abc 100))) "with-vars 1")
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(assert-error "with-vars 2" (with-vars [abc 456] (error :oops)))
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(assert (= abc 123) "with-vars 3")
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# Trim empty string
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(assert (= "" (string/trim " ")) "string/trim regression")
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# RNGs
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(defn test-rng
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[rng]
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(assert (all identity (seq [i :range [0 1000]]
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(<= (math/rng-int rng i) i))) "math/rng-int test")
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(assert (all identity (seq [i :range [0 1000]]
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(def x (math/rng-uniform rng))
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(and (>= x 0) (< x 1))))
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"math/rng-uniform test"))
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(def seedrng (math/rng 123))
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(for i 0 75
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(test-rng (math/rng (:int seedrng))))
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(assert (deep-not= (-> 123 math/rng (:buffer 16))
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(-> 456 math/rng (:buffer 16))) "math/rng-buffer 1")
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(assert-no-error "math/rng-buffer 2" (math/seedrandom "abcdefg"))
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# OS Date test
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(assert (deep= {:year-day 0
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:minutes 30
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:month 0
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:dst false
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:seconds 0
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:year 2014
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:month-day 0
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:hours 20
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:week-day 3}
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(os/date 1388608200)) "os/date")
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# Appending buffer to self
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(with-dyns [:out @""]
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(prin "abcd")
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(prin (dyn :out))
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(prin (dyn :out))
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(assert (deep= (dyn :out) @"abcdabcdabcdabcd") "print buffer to self"))
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(os/setenv "TESTENV1" "v1")
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(os/setenv "TESTENV2" "v2")
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(assert (= (os/getenv "TESTENV1") "v1") "getenv works")
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(def environ (os/environ))
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(assert (= [(environ "TESTENV1") (environ "TESTENV2")] ["v1" "v2"]) "environ works")
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# Issue #183 - just parse it :)
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1e-4000000000000000000000
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# Ensure randomness puts n of pred into our buffer eventually
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(defn cryptorand-check
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[n pred]
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(def max-attempts 10000)
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(var attempts 0)
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(while (not= attempts max-attempts)
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(def cryptobuf (os/cryptorand 10))
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(when (= n (count pred cryptobuf))
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(break))
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(++ attempts))
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(not= attempts max-attempts))
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(def v (math/rng-int (math/rng (os/time)) 100))
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(assert (cryptorand-check 0 |(= $ v)) "cryptorand skips value sometimes")
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(assert (cryptorand-check 1 |(= $ v)) "cryptorand has value sometimes")
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(do
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(def buf (buffer/new-filled 1))
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(os/cryptorand 1 buf)
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(assert (= (in buf 0) 0) "cryptorand doesn't overwrite buffer")
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(assert (= (length buf) 2) "cryptorand appends to buffer"))
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# Nested quasiquotation
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(def nested ~(a ~(b ,(+ 1 2) ,(foo ,(+ 1 3) d) e) f))
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(assert (deep= nested '(a ~(b ,(+ 1 2) ,(foo 4 d) e) f)) "nested quasiquote")
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# Top level unquote
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(defn constantly
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[]
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(comptime (math/random)))
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(assert (= (constantly) (constantly)) "comptime 1")
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(assert-error "arity issue in macro" (eval '(each [])))
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(assert-error "comptime issue" (eval '(comptime (error "oops"))))
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(with [f (file/temp)]
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(file/write f "foo\n")
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(file/flush f)
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(file/seek f :set 0)
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(assert (= (string (file/read f :all)) "foo\n") "temp files work"))
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(end-suite)
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