tests/lang.min
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'test load 'test import "lang" describe (2 'a define (3 a + (5 'a define a) -> +) -> a + 12 ==) assert (symbols "a" in? false ==) assert ('abcdefg defined? false ==) assert 5 :five (symbols "five" in?) assert ( ((1 2 3 4 5 6)) :test-data ( :item "_$1" (item) => % :namesym (item dup *) namesym define namesym ROOT publish ) :def test-data (def) foreach _2 _5 _1 + + 30 == ) assert ~five (symbols "five" in? false ==) assert { (+) :myplus } +mymath (symbols "mymath" in?) assert ('mymath import symbols "myplus" in?) assert ('mymath import 2 3 myplus 5 ==) assert (2 3 mymath ^myplus 5 ==) assert ("3 4 +" eval 7 ==) assert ("2 2 +" "tests/testload.min" fwrite 'testload load 4 ==) assert "tests/testload.min" rm ("2 :two 3 :three" "tests/testrequire.min" fwrite 'testrequire require :tm *tm/two *tm/three + 5 ==) assert "tests/testrequire.min" rm (2 2 mymath ^myplus 4 ==) assert (2 quote (2) ==) assert ((2 3) dequote get-stack (2 3) ==) assert (3 (succ) 3 times 6 ==) assert ((2 3 >) ("YES") ("NO") if "NO" ==) assert ((2 3 <) ("YES") ("NO") if "YES" ==) assert ("NO" (2 3 >) ("YES") when "NO" ==) assert ((2 3 <) ("YES") when "YES" ==) assert ((2 3 >) ("YES") unless "YES" ==) assert (1 type "int" ==) assert ({} type "dict" ==) assert (ROOT type "dict:module" ==) assert (5 (dup 0 ==) (1 +) (dup 1 -) ( * ) linrec 120 ==) assert ;factorial of 5 ( ( (pop) ('error dget) ("finally") ) try get-stack ("MinEmptyStackError" "finally") ==) assert ("aaaa" :cd cd "aaaa" ==) assert ;It is possible to shadow sealed symbols in child scopes (((2 :a1 'a1 seal 3 :a1) ("failed")) try "failed" ==) assert ( 1 :a1 'a1 seal 'a1 unseal 2 :a1 2 a1 ==) assert ( ( ({"TestError" :error "Test Message" :message} raise) (/error) ) try "TestError" ==) assert ( (("test" °test :)) try get-stack ("test") ==) assert ( ( (() 1 get) (1) ) try 1 ==) assert ((a b +) {4 :a 5 :b} with 9 ==) assert ("{\"a\": 1, \"b\": 2.3}" from-json {1 :a 2.3 :b} ==) assert ((1 2 3 "aaa" 'q q true) to-json "\r\n" "" replace "\n" "" replace " " "" replace "[1,2,3,\"aaa\",\";sym:'q\",\";sym:q\",true]" ==) assert ((1 2 3 "aaa" 'q q true) to-json from-json (1 2 3 "aaa" 'q q true) ==) assert (((1 2 3)) :sym1 >sym1 saved-symbols "sym1" in?) assert (<sym1 symbols "sym1" in?) assert ('sym1 remove-symbol saved-symbols "sym1" in? false ==) assert (0 :temp (1 2 3) (temp + @temp) foreach 6 temp ==) assert ((1 +) :mysucc 'mysucc source (1 +) ==) assert (6 ( ((3 ==) (false)) ((3 <) (false)) ((3 >) (true)) ) case ) assert (time scope-symbols ("datetime" "now" "tformat" "timeinfo" "timestamp" "to-timestamp") ==) assert (sys scope-sigils ("!" "$" "&") ==) assert ({3 :a 5 :b} scope-symbols ("a" "b") ==) assert (opts {} ==) assert (args first "\.min$" match) assert (3 string "3" ==) assert ("false" bool false ==) assert ("" bool false ==) assert (0 bool false ==) assert (false bool false ==) assert (0.0 bool false ==) assert ("something" bool true ==) assert ("345" int 345 ==) assert (true int 1 ==) assert (3.5 int 3 ==) assert (3.5 float 3.5 ==) assert (3 float 3.0 ==) assert (false float 0.0 ==) assert ("3.678" float 3.678 ==) assert ( {1 :a 2 :b 3 :c} ( (dup /a succ succ %a) (dup /b succ %b) ) tap {3 :a 3 :b 3 :c} == ) assert ( {} :data data ( 1 %a 2 %b ) tap {1 :a 2 :b} == ) assert ( "" :s1 "test" ( (' "1" swap append "" join) (' "2" swap append "" join) (' "3" swap append "" join @s1 s1) ) tap! s1 "test123" == ) assert (3.4 "test" 1 (int string num) expect (3.4 "test" 1) ==) assert ("2 2 +" "testread.min" fwrite "testread.min" read (2 2 +) ==) assert "testread.min" rm ("aaa bbb ccc 2 2 + (2 3 4)" parse (aaa bbb ccc 2 2 + (2 3 4)) ==) assert (lite? false ==) assert ({3 :x 5 :y} "point" set-type 'point type?) assert ({} :myscope (2 :two 3 :three scope @myscope) -> myscope scope-symbols ("three" "two") ==) assert ((2 < 3 and (4 > 2)) >< true) assert ((float 3) >> 3.0 ==) assert ( ("--" suffix "--" prefix) 'del define-sigil del"test" "--test--" == ) assert ( ("x" prefix) 'x define-sigil 'x unseal-sigil 'x delete-sigil 'x defined-sigil? false == ) assert ( {{100 :b} :a} :test *test/a/b 100 == ) assert ( ( symbol pow-mul (num :base int :exp ==> num :pr num :mr) ( exp 1 - :n base exp * @mr base (dup) n times (*) n times @pr ) ) operator 2 4 pow-mul - 8 == ) assert ( ( sigil nt (string :s ==> bool :result) ( ("int" s ==) (true @result return) when ("num" s ==) (true @result return) when ("float" s ==) (true @result return) when "not gonna be printed if true!" puts false @result ) ) :: nt"float" ) assert report ; Tidy up clear-stack |