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janet/test/suite0000.janet

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# Copyright (c) 2021 Calvin Rose
#
# 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)
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(start-suite 0)
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(assert (= 10 (+ 1 2 3 4)) "addition")
(assert (= -8 (- 1 2 3 4)) "subtraction")
(assert (= 24 (* 1 2 3 4)) "multiplication")
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(assert (= 4 (blshift 1 2)) "left shift")
(assert (= 1 (brshift 4 2)) "right shift")
(assert (< 1 2 3 4 5 6) "less than integers")
(assert (< 1.0 2.0 3.0 4.0 5.0 6.0) "less than reals")
(assert (> 6 5 4 3 2 1) "greater than integers")
(assert (> 6.0 5.0 4.0 3.0 2.0 1.0) "greater than reals")
(assert (<= 1 2 3 3 4 5 6) "less than or equal to integers")
(assert (<= 1.0 2.0 3.0 3.0 4.0 5.0 6.0) "less than or equal to reals")
(assert (>= 6 5 4 4 3 2 1) "greater than or equal to integers")
(assert (>= 6.0 5.0 4.0 4.0 3.0 2.0 1.0) "greater than or equal to reals")
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(assert (= 7 (% 20 13)) "modulo 1")
(assert (= -7 (% -20 13)) "modulo 2")
(assert (< 1.0 nil false true
(fiber/new (fn [] 1))
"hi"
(quote hello)
:hello
(array 1 2 3)
(tuple 1 2 3)
(table "a" "b" "c" "d")
(struct 1 2 3 4)
(buffer "hi")
(fn [x] (+ x x))
print) "type ordering")
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(assert (= (string (buffer "123" "456")) (string @"123456")) "buffer literal")
(assert (= (get {} 1) nil) "get nil from empty struct")
(assert (= (get @{} 1) nil) "get nil from empty table")
(assert (= (get {:boop :bap} :boop) :bap) "get non nil from struct")
(assert (= (get @{:boop :bap} :boop) :bap) "get non nil from table")
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(assert (= (get @"\0" 0) 0) "get non nil from buffer")
(assert (= (get @"\0" 1) nil) "get nil from buffer oob")
(assert (put @{} :boop :bap) "can add to empty table")
(assert (put @{1 3} :boop :bap) "can add to non-empty table")
(assert (not false) "false literal")
(assert true "true literal")
(assert (not nil) "nil literal")
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(assert (= 7 (bor 3 4)) "bit or")
(assert (= 0 (band 3 4)) "bit and")
(assert (= 0xFF (bxor 0x0F 0xF0)) "bit xor")
(assert (= 0xF0 (bxor 0xFF 0x0F)) "bit xor 2")
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# Set global variables to prevent some possible compiler optimizations that defeat point of the test
(var zero 0)
(var one 1)
(var two 2)
(var three 3)
(var plus +)
(assert (= 22 (plus one (plus 1 2 two) (plus 8 (plus zero 1) 4 three))) "nested function calls")
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# String literals
(assert (= "abcd" "\x61\x62\x63\x64") "hex escapes")
(assert (= "\e" "\x1B") "escape character")
(assert (= "\x09" "\t") "tab character")
# McCarthy's 91 function
(var f91 nil)
(set f91 (fn [n] (if (> n 100) (- n 10) (f91 (f91 (+ n 11))))))
(assert (= 91 (f91 10)) "f91(10) = 91")
(assert (= 91 (f91 11)) "f91(11) = 91")
(assert (= 91 (f91 20)) "f91(20) = 91")
(assert (= 91 (f91 31)) "f91(31) = 91")
(assert (= 91 (f91 100)) "f91(100) = 91")
(assert (= 91 (f91 101)) "f91(101) = 91")
(assert (= 92 (f91 102)) "f91(102) = 92")
(assert (= 93 (f91 103)) "f91(103) = 93")
(assert (= 94 (f91 104)) "f91(104) = 94")
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# Fibonacci
(def fib (do (var fib nil) (set fib (fn [n] (if (< n 2) n (+ (fib (- n 1)) (fib (- n 2))))))))
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(def fib2 (fn fib2 [n] (if (< n 2) n (+ (fib2 (- n 1)) (fib2 (- n 2))))))
(assert (= (fib 0) (fib2 0) 0) "fib(0)")
(assert (= (fib 1) (fib2 1) 1) "fib(1)")
(assert (= (fib 2) (fib2 2) 1) "fib(2)")
(assert (= (fib 3) (fib2 3) 2) "fib(3)")
(assert (= (fib 4) (fib2 4) 3) "fib(4)")
(assert (= (fib 5) (fib2 5) 5) "fib(5)")
(assert (= (fib 6) (fib2 6) 8) "fib(6)")
(assert (= (fib 7) (fib2 7) 13) "fib(7)")
(assert (= (fib 8) (fib2 8) 21) "fib(8)")
(assert (= (fib 9) (fib2 9) 34) "fib(9)")
(assert (= (fib 10) (fib2 10) 55) "fib(10)")
# Closure in non function scope
(def outerfun (fn [x y]
(def c (do
(def someval (+ 10 y))
(def ctemp (if x (fn [] someval) (fn [] y)))
ctemp
))
(+ 1 2 3 4 5 6 7)
c))
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(assert (= ((outerfun 1 2)) 12) "inner closure 1")
(assert (= ((outerfun nil 2)) 2) "inner closure 2")
(assert (= ((outerfun false 3)) 3) "inner closure 3")
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(assert (= '(1 2 3) (quote (1 2 3)) (tuple 1 2 3)) "quote shorthand")
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((fn []
(var accum 1)
(var count 0)
(while (< count 16)
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(set accum (blshift accum 1))
(set count (+ 1 count)))
(assert (= accum 65536) "loop in closure")))
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(var accum 1)
(var count 0)
(while (< count 16)
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(set accum (blshift accum 1))
(set count (+ 1 count)))
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(assert (= accum 65536) "loop globally")
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(assert (= (struct 1 2 3 4 5 6 7 8) (struct 7 8 5 6 3 4 1 2)) "struct order does not matter 1")
(assert (= (struct
:apple 1
6 :bork
'(1 2 3) 5)
(struct
6 :bork
'(1 2 3) 5
:apple 1)) "struct order does not matter 2")
# Symbol function
(assert (= (symbol "abc" 1 2 3) 'abc123) "symbol function")
# Fiber tests
(def afiber (fiber/new (fn []
(def x (yield))
(error (string "hello, " x))) :ye))
(resume afiber) # first resume to prime
(def afiber-result (resume afiber "world!"))
(assert (= afiber-result "hello, world!") "fiber error result")
(assert (= (fiber/status afiber) :error) "fiber error status")
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# yield tests
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(def t (fiber/new (fn [&] (yield 1) (yield 2) 3)))
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(assert (= 1 (resume t)) "initial transfer to new fiber")
(assert (= 2 (resume t)) "second transfer to fiber")
(assert (= 3 (resume t)) "return from fiber")
(assert (= (fiber/status t) :dead) "finished fiber is dead")
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# Var arg tests
(def vargf (fn [more] (apply + more)))
(assert (= 0 (vargf @[])) "var arg no arguments")
(assert (= 1 (vargf @[1])) "var arg no packed arguments")
(assert (= 3 (vargf @[1 2])) "var arg tuple size 1")
(assert (= 10 (vargf @[1 2 3 4])) "var arg tuple size 2, 2 normal args")
(assert (= 110 (vargf @[1 2 3 4 10 10 10 10 10 10 10 10 10 10])) "var arg large tuple")
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# Higher order functions
(def compose (fn [f g] (fn [& xs] (f (apply g xs)))))
(def -+ (compose - +))
(def +- (compose + -))
(assert (= (-+ 1 2 3 4) -10) "compose - +")
(assert (= (+- 1 2 3 4) -8) "compose + -")
(assert (= ((compose -+ +-) 1 2 3 4) 8) "compose -+ +-")
(assert (= ((compose +- -+) 1 2 3 4) 10) "compose +- -+")
# UTF-8
#🐙🐙🐙🐙
(def 🦊 :fox)
(def 🐮 :cow)
(assert (= (string "🐼" 🦊 🐮) "🐼foxcow") "emojis 🙉 :)")
(assert (not= 🦊 "🦊") "utf8 strings are not symbols and vice versa")
(assert (= "\U01F637" "😷") "unicode escape 1")
(assert (= "\u2623" "\U002623" "☣") "unicode escape 2")
(assert (= "\u24c2" "\U0024c2" "Ⓜ") "unicode escape 3")
(assert (= "\u0061" "a") "unicode escape 4")
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# Symbols with @ character
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(def @ 1)
(assert (= @ 1) "@ symbol")
(def @-- 2)
(assert (= @-- 2) "@-- symbol")
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(def @hey 3)
(assert (= @hey 3) "@hey symbol")
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# Merge sort
# Imperative (and verbose) merge sort merge
(defn merge
[xs ys]
(def ret @[])
(def xlen (length xs))
(def ylen (length ys))
(var i 0)
(var j 0)
# Main merge
(while (if (< i xlen) (< j ylen))
(def xi (get xs i))
(def yj (get ys j))
(if (< xi yj)
(do (array/push ret xi) (set i (+ i 1)))
(do (array/push ret yj) (set j (+ j 1)))))
# Push rest of xs
(while (< i xlen)
(def xi (get xs i))
(array/push ret xi)
(set i (+ i 1)))
# Push rest of ys
(while (< j ylen)
(def yj (get ys j))
(array/push ret yj)
(set j (+ j 1)))
ret)
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(assert (apply <= (merge @[1 3 5] @[2 4 6])) "merge sort merge 1")
(assert (apply <= (merge @[1 2 3] @[4 5 6])) "merge sort merge 2")
(assert (apply <= (merge @[1 3 5] @[2 4 6 6 6 9])) "merge sort merge 3")
(assert (apply <= (merge '(1 3 5) @[2 4 6 6 6 9])) "merge sort merge 4")
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(assert (deep= @[1 2 3 4 5] (sort @[5 3 4 1 2])) "sort 1")
(assert (deep= @[{:a 1} {:a 4} {:a 7}] (sort-by |($ :a) @[{:a 4} {:a 7} {:a 1}])) "sort 2")
(assert (deep= @[1 2 3 4 5] (sorted [5 3 4 1 2])) "sort 3")
(assert (deep= @[{:a 1} {:a 4} {:a 7}] (sorted-by |($ :a) [{:a 4} {:a 7} {:a 1}])) "sort 4")
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# Gensym tests
(assert (not= (gensym) (gensym)) "two gensyms not equal")
((fn []
(def syms (table))
(var count 0)
(while (< count 128)
(put syms (gensym) true)
(set count (+ 1 count)))
(assert (= (length syms) 128) "many symbols")))
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# Let
(assert (= (let [a 1 b 2] (+ a b)) 3) "simple let")
(assert (= (let [[a b] @[1 2]] (+ a b)) 3) "destructured let")
(assert (= (let [[a [c d] b] @[1 (tuple 4 3) 2]] (+ a b c d)) 10) "double destructured let")
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# Macros
(defn dub [x] (+ x x))
(assert (= 2 (dub 1)) "defn macro")
(do
(defn trip [x] (+ x x x))
(assert (= 3 (trip 1)) "defn macro triple"))
(do
(var i 0)
(when true
(++ i)
(++ i)
(++ i)
(++ i)
(++ i)
(++ i))
(assert (= i 6) "when macro"))
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# Denormal tables and structs
(assert (= (length {1 2 nil 3}) 1) "nil key struct literal")
(assert (= (length @{1 2 nil 3}) 1) "nil key table literal")
(assert (= (length (struct 1 2 nil 3)) 1) "nil key struct ctor")
(assert (= (length (table 1 2 nil 3)) 1) "nil key table ctor")
(assert (= (length (struct (/ 0 0) 2 1 3)) 1) "nan key struct ctor")
(assert (= (length (table (/ 0 0) 2 1 3)) 1) "nan key table ctor")
(assert (= (length {1 2 nil 3}) 1) "nan key struct literal")
(assert (= (length @{1 2 nil 3}) 1) "nan key table literal")
(assert (= (length (struct 2 1 3 nil)) 1) "nil value struct ctor")
(assert (= (length (table 2 1 3 nil)) 1) "nil value table ctor")
(assert (= (length {1 2 3 nil}) 1) "nil value struct literal")
(assert (= (length @{1 2 3 nil}) 1) "nil value table literal")
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# Regression Test
(assert (= 1 (((compile '(fn [] 1) @{})))) "regression test")
# Regression Test #137
(def [a b c] (range 10))
(assert (= a 0) "regression #137 (1)")
(assert (= b 1) "regression #137 (2)")
(assert (= c 2) "regression #137 (3)")
(var [x y z] (range 10))
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(assert (= x 0) "regression #137 (4)")
(assert (= y 1) "regression #137 (5)")
(assert (= z 2) "regression #137 (6)")
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(assert (= true ;(map truthy? [0 "" true @{} {} [] '()])) "truthy values")
(assert (= false ;(map truthy? [nil false])) "non-truthy values")
# Struct and Table duplicate elements
(assert (= {:a 3 :b 2} {:a 1 :b 2 :a 3}) "struct literal duplicate keys")
(assert (= {:a 3 :b 2} (struct :a 1 :b 2 :a 3)) "struct constructor duplicate keys")
(assert (deep= @{:a 3 :b 2} @{:a 1 :b 2 :a 3}) "table literal duplicate keys")
(assert (deep= @{:a 3 :b 2} (table :a 1 :b 2 :a 3)) "table constructor duplicate keys")
## Polymorphic comparison -- Issue #272
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# confirm polymorphic comparison delegation to primitive comparators:
(assert (= 0 (cmp 3 3)) "compare-primitive integers (1)")
(assert (= -1 (cmp 3 5)) "compare-primitive integers (2)")
(assert (= 1 (cmp "foo" "bar")) "compare-primitive strings")
(assert (= 0 (compare 1 1)) "compare integers (1)")
(assert (= -1 (compare 1 2)) "compare integers (2)")
(assert (= 1 (compare "foo" "bar")) "compare strings (1)")
(assert (compare< 1 2 3 4 5 6) "compare less than integers")
(assert (not (compare> 1 2 3 4 5 6)) "compare not greater than integers")
(assert (compare< 1.0 2.0 3.0 4.0 5.0 6.0) "compare less than reals")
(assert (compare> 6 5 4 3 2 1) "compare greater than integers")
(assert (compare> 6.0 5.0 4.0 3.0 2.0 1.0) "compare greater than reals")
(assert (not (compare< 6.0 5.0 4.0 3.0 2.0 1.0)) "compare less than reals")
(assert (compare<= 1 2 3 3 4 5 6) "compare less than or equal to integers")
(assert (compare<= 1.0 2.0 3.0 3.0 4.0 5.0 6.0) "compare less than or equal to reals")
(assert (compare>= 6 5 4 4 3 2 1) "compare greater than or equal to integers")
(assert (compare>= 6.0 5.0 4.0 4.0 3.0 2.0 1.0) "compare greater than or equal to reals")
(assert (compare< 1.0 nil false true
(fiber/new (fn [] 1))
"hi"
(quote hello)
:hello
(array 1 2 3)
(tuple 1 2 3)
(table "a" "b" "c" "d")
(struct 1 2 3 4)
(buffer "hi")
(fn [x] (+ x x))
print) "compare type ordering")
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# test polymorphic compare with 'objects' (table/setproto)
(def mynum
@{:type :mynum :v 0 :compare
(fn [self other]
(case (type other)
:number (cmp (self :v) other)
:table (when (= (get other :type) :mynum)
(cmp (self :v) (other :v)))))})
(let [n3 (table/setproto @{:v 3} mynum)]
(assert (= 0 (compare 3 n3)) "compare num to object (1)")
(assert (= -1 (compare n3 4)) "compare object to num (2)")
(assert (= 1 (compare (table/setproto @{:v 4} mynum) n3)) "compare object to object")
(assert (compare< 2 n3 4) "compare< poly")
(assert (compare> 4 n3 2) "compare> poly")
(assert (compare<= 2 3 n3 4) "compare<= poly")
(assert (compare= 3 n3 (table/setproto @{:v 3} mynum)) "compare= poly")
(assert (deep= (sorted @[4 5 n3 2] compare<) @[2 n3 4 5]) "polymorphic sort"))
(let [MAX_INT_64_STRING "9223372036854775807"
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MAX_UINT_64_STRING "18446744073709551615"
MAX_INT_IN_DBL_STRING "9007199254740991"
NAN (math/log -1)
INF (/ 1 0)
MINUS_INF (/ -1 0)
compare-poly-tests
[[(int/s64 3) (int/u64 3) 0]
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[(int/s64 -3) (int/u64 3) -1]
[(int/s64 3) (int/u64 2) 1]
[(int/s64 3) 3 0] [(int/s64 3) 4 -1] [(int/s64 3) -9 1]
[(int/u64 3) 3 0] [(int/u64 3) 4 -1] [(int/u64 3) -9 1]
[3 (int/s64 3) 0] [3 (int/s64 4) -1] [3 (int/s64 -5) 1]
[3 (int/u64 3) 0] [3 (int/u64 4) -1] [3 (int/u64 2) 1]
[(int/s64 MAX_INT_64_STRING) (int/u64 MAX_UINT_64_STRING) -1]
[(int/s64 MAX_INT_IN_DBL_STRING) (scan-number MAX_INT_IN_DBL_STRING) 0]
[(int/u64 MAX_INT_IN_DBL_STRING) (scan-number MAX_INT_IN_DBL_STRING) 0]
[(+ 1 (int/u64 MAX_INT_IN_DBL_STRING)) (scan-number MAX_INT_IN_DBL_STRING) 1]
[(int/s64 0) INF -1] [(int/u64 0) INF -1]
[MINUS_INF (int/u64 0) -1] [MINUS_INF (int/s64 0) -1]
[(int/s64 1) NAN 0] [NAN (int/u64 1) 0]]]
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(each [x y c] compare-poly-tests
(assert (= c (compare x y)) (string/format "compare polymorphic %q %q %d" x y c))))
(assert (= nil (any? [])) "any? 1")
(assert (= nil (any? [false nil])) "any? 2")
(assert (= nil (any? [nil false])) "any? 3")
(assert (= 1 (any? [1])) "any? 4")
(assert (nan? (any? [nil math/nan nil])) "any? 5")
(assert (= true (any? [nil nil false nil nil true nil nil nil nil false :a nil])) "any? 6")
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(end-suite)