txlyre 61acdbc299 upd readme | 3 semanas atrás | |
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jk.c | 3 semanas atrás | |
readme.md | 3 semanas atrás |
jk is a recreational tacit array programming language inspired by J and K (so j + k = jk).
this is an implementation of the jk interpreter in C. Requires libgc (a.k.a. bdwgc) to build.
/ comment
5+5 / also comment
5+5/not comment (no whitespace before /)
nil udf / special, nil and undefined
'a'%2 / = nan, nan used to denote illegal numeric operation
+1 2 3 / = udf, attempt to transpose flat vector, udf/undefined used to denote illegal operation
5 5.5 -5 42 / number (double-precision floats)
1`000 1`000`000 /
.5 .429 /
0xff 0o4 0b0101 /
nan inf /
'a' 'b' 'g' / chars (bytes)
4t.0 / 0 NUL byte
(4t.0),:(4t.16),:(4t.22) /
1 2 3 / numbers array
'hello world!' 'bla''bla' / quote, array of chars
,'a' / 1-char string
,1 / 1-elt array
() / unit, empty array
1,:(5+5),:1 2 3 / strand, mixed array literal
-1 / negative num literal
- 1 / application of - negate to 1
-1 -2 -3 / array of negative nums
- 1 2 3 / application of - negate to an array of nums
5-5 / array of numbers 5 and -5
5- 5 / 5 minus 5
+ / verb
5+5 / dyadic expr
#1 2 3 / monadic expr (no left side)
+/ *;. / adverb
+;1 -;* +^:^. / conjunction
:x+y / function literal
:1 / function that always yields 1
x:123 / bind name
sq:*;. /
fac:*/1+! / bind function
f:x+y /
f:-x / overload function by arity
f 5 / = -5
5 f 5 / = 10
*/!. / hook, fgx -> f(g(x)), xfgy -> f(g(x, y))
+/%# / fork, fghx -> g(f(x), h(x)), xfghy -> g(f(x), h(y))
1+! / over, nfgx -> f(n, g(x)), xnfgy -> f(n, g(x, y))
1+ / bond, nfx -> f(n, x), xnfy -> f(n, f(x, y))
: monadic const create a function that always yields x
: dyadic bind bind y to symbol x
:: monadic unbind unbind symbol x
:: dyadic obverse insert inverse for x
+ monadic flip transpose matrix
+ dyadic plus add numbers
+. monadic fibonacci compute xth fibonacci number
+. dyadic gcd compute gcd(x, y)
+: monadic sin compute sin(x)
+: dyadic combine combine digits of x and y, same as 10_.(10_:),(10_:)
- monadic negate negate number
- dyadic minus subtract numbers
* monadic first yield first element of x
* dyadic times multiply numbers
*. monadic factorial x!
*. dyadic lcm compute lcm(x, y)
*: monadic double x * 2
*: dyadic replicate repeat y x times
% monadic reciprocal 1 / x
% dyadic divide divide numbers
%. monadic sqrt compute square root of x
%. dyadic root compute xth root of y
%: monadic halve x % 2
%: dyadic idivide same as % divide, but result is always integer
! monadic enum [0, x)
! dyadic mod modulo of numbers
!. monadic iota [1, x]
!. dyadic range [x, y] (also works for chars and even if x > y)
!: monadic odometer !:10 10 is 0 0,:0 1,: ... 1 0,:1 1,: ... 9 8,:9 9
!: dyadic chunks split y into x-sized chunks
^ monadic exp e^x
^ dyadic power raise number to a power
^. monadic nlog ln(x)
^. dyadic log log(y)/log(x)
= monadic permute generate permutations of x
= dyadic equals test whether x and y are equal
=. monadic occurences count occurences of elts, =.'Hello World!' is 0 0 0 1 0 0 0 1 0 2 0 0
=. dyadic mask mask one array in another, 'abxyzabayxxyabxyk'=.'xy' is 0 0 1 1 0 0 0 0 0 0 2 2 0 0 3 3 0
=: monadic classify assign unique index to each unique elt, =:'Hello World!' is 0 1 2 2 3 4 5 3 6 2 7 8
=: dyadic match same as = equals, but rank 0, so compares x and y as whole
~ monadic not logical not, nil udf () 0 4t.0 are not truthy, everything else is truthy
~ dyadic notequals test whether x and y are not equal
~. monadic sign sign of x, -1 for negative, 0 for 0, 1 for positive
~. dyadic insert insert x between elts of y, 0~.1 2 3 is 1 0 2 0 3
~: dyadic notmatch rank 0 version of ~ notequals
< monadic pred x - 1
< dyadic less test whether x is lesser than y
<. monadic floor round x down
<. dyadic lesseq test whether x is equal or lesser than y
<: monadic gradedown indices of array sorted descending
<: dyadic nudgeleft shift elts of y to the left filling gap with x
> monadic succ x + 1
> dyadic greater test whether x is greater than y
>. monadic ceil round x up
>. dyadic greatereq test whether x is equal or greater than y
>: monadic gradeup indices of array sorted ascending
>: dyadic nudgeright shift elts of y to the right filling gap with x
, monadic enlist put x into 1-elt array
, dyadic join concat x and y
,. monadic enfile same as , enlist but with infinite rank, ,.1 2 3 is (,1),:(,2),:(,3)
,. dyadic enpair put x and y into 2-elt array
# monadic count yield count of elts of x
# dyadic take take x first elts of y (or last if x < 0)
#. monadic where #.0 0 1 0 1 0 is 2 4
#. dyadic copy repeat each elt of x by corresponding number in y, 5 2 3 3#.0 2 2 1 is 2 2 3 3 3
#: monadic group #:'mississippi' is (,0),:1 4 7 10,:2 3 5 6,:8 9
#: dyadic buckets group elts of y into buckets according to x, e.g. 0 -1 -1 2 0#:a b c d e is (a,.e),:(),:(,d)
_ monadic nub mark all unique elts of x, e.g. _'abracadabra' yields 1 1 1 0 1 0 1 0 0 0 0
_ dyadic drop remove first x elts of y (or last if x < 0)
_. monadic unbits _.1 0 1 is 5
_. dyadic unbase 10_.4 5 6 is 456
_: monadic bits _:5 is 1 0 1
_: dyadic base 10_:4242 is 4 2 4 2
? monadic unique distinct elts of x, same as ]#._
? dyadic find find all indices of x in y
& monadic flatten flatten an array, same as ,//.
& dyadic minand get min of two numbers (logical and for 0/1s)
| monadic reverse reverse an array
| dyadic maxor get max of two numbers (for 0/1s is same as logical or)
|. monadic round round x
|. dyadic rotate rotate array x times clockwise (-x for counterclockwise)
|: monadic depth find max depth of x, |:,,,y yields 3
|: dyadic windows yields all contiguous x-sized subarrays of y
@ monadic abs |x|
@ dyadic at pick elts from x by indices from y
@. monadic shuffle shuffle elts of x
@. dyadic member check whether x is in y
@: dyadic indexof yield index of x in y or #y if x not in y
{ monadic head first two elts of x, same as 2#
{ dyadic bin bin search, e.g. 1 3 5 7 9{8 9 0 yields 3 4 -1
{. monadic tail last elt of x
{: monadic prefixes prefixes of x, same as |}.\.
{: dyadic shl x << y
} monadic behead all elts of x except first, same as 1_
} dyadic xor x ^ y
}. monadic curtail all elts of x except last, same as -1_
}: monadic suffixes suffixes of x, same as }.\.
}: dyadic shr x >> y
[ monadic factors compute prime factors of x
[ dyadic left yield x
[. monadic bnot ~x
[. dyadic bor x | y
[: monadic primes find primes in range [2, x]
[: dyadic parts split y into x parts
] monadic same yield x (i.e. identity)
] dyadic right yield y (i.e. right argument)
]. monadic sort sort x ascending, shortcut for ]@>:
]. dyadic outof the number of ways of picking x balls from a bag of y balls, e.g. 5].10 is 252
]: monadic unsort sort x descending, shortcut for ]@<:
]: dyadic explode split y by delim x
`. monadic symbol cast x to a symbol
`. dyadic apply1 apply x to y
`: monadic square x ^ 2
`: dyadic apply2 apply x to y (y is 2-elt array of args)
$ monadic shape yield shape of x
$ dyadic reshape reshape y to shape x
$. monadic repr yield string repr of x
$. dyadic format format y by template x, e.g. '{0}+{1}*{-1}+_'$.1 2 3 4 is 1+2*4+1
$: monadic eye identity matrix of size x
$: dyadic implode join y inserting x between
p. monadic print print x
P. monadic println print x and a \n
f. monadic selfref1 monadic reference to current function or rhs of bind
f. dyadic selfref2 dyadic reference to current function or rhs of bind
F. monadic read read file (x=0 to read stdin)
F. dyadic write write file (y=0 to write to stderr)
t. monadic type type of x, array=0, verb=1, symbol=2, number=3, char=4, nil=5, udf=6
r. monadic deal yield random elt of x
r. dyadic roll roll xdy (note: y is 0-based, so >xr.y for 1-based)
e. monadic eval eval expression, yields udf on parse error
i. monadic import load and eval source file
y. monadic system exec system command (yields output)
y. dyadic system2 exec system command with input
E. monadic exit exit with exit code
L. dyadic tackleft prepend x to y
R. dyadic tackright append x to y
f" each >"1 2 3 yields 2 3 4
xf" merge 1 2 3,"a b c yields (1,.a),:(2,.b),:(3,.c)
f". eachprior -".1 2 2 3 5 6 yields 1 0 1 2 1
xf". eachpriorwith 0-".1 2 2 3 5 6 yields 1 1 0 1 2 1
f/ fold +/1 2 3 yields 6
xf/ foldwith 1+/1 2 3 yields 7
f\ scan +\1 2 3 yields 1 3 6
xf\ scanwith 1+\1 2 3 yields 1 2 4 7
f/. converge 1;_/.1 2 3 yields ()
f\. converges 1;_\.1 2 3 yields 1 2 3,:2 3,:(,3),:()
xf/. eachright 1-/.1 2 3 yields 0 1 2
xf\. eachleft 1-\.1 2 3 yields 0 -1 -2
f": rank #":1 2 3$1 yields 3 3, #":inf 2 3$1 yields 1 1 1,:1 1 1
xf": rank2 1 2 3 *:":1 1 2 3 yields (,1),:2 2,:3 3 3
n` amend 'gw'0 3`'cross' yields 'grows'
f&. filter >;0&.-2!.2 yields 1 2, basically shortcut for ]#.f
f/: span =;' '/:'x y z' yields (,'x'),:(,'y'),:(,'z')
xf/: stencil 3+//:!10 yields 3 6 9 12 15 18 21 24, shortcut for f"x|:
f;. reflex *;.5 yields 25, 5%;.2 yields 0.4
f;g bond */;!.5 yields 120, +;1 5 yields 6, 5;- 1 yields 4
f?.x pick >;5?.((2*),:<)"3 6 yields 6 5
f?:F while <;5?:>0 yields 5
n?:f repeat 5?:*;2 1 yields 32
f&:F if 1+&:+2 yields 2
f;:F monaddyad -;:+5 yields -5, 1-;:+5 yields 6
inverse of a function f is a function ~f that undoes the effect of f
f::~f obverse define inverse ~f for f
f-:x inverse ~fx
xf-:y inverse2 (~fx)~f~fx
f^:Fx under ~FfFx
xf^:Fx under2 ~F(Fx)f(Fx)
There is prebuilt ELF executables with statically linked libgc for x86-64 and aarch64 Linux: