stack exec ki -- -repl
(<operator> <expression> <expression>)- Calculation:
+ - * / - Logic:
and or not - Compare:
> < >= <= =(Numbers only)
>>> (+ 1 2)
3
>>> (and True False)
False
>>> (and (or True False) True)
True
(set! <variable> <expression>)
>>> (set! x 1)
>>> x
1.0
(make-vector <variable> <expression>)(vector-set! <variable> <expression> <expression>)(vector-ref <variable> <expression>)
>>> (make-vector x 6)
>>> x
[Undefined, Undefined, Undefined, Undefined, Undefined, Undefined]
>>> (vector-set! x (+ 1 2) (+ 2 3))
>>> x
[Undefined, Undefined, Undefined, 5.0, Undefined, Undefined]
>>> (vector-ref x 3)
5.0
(if <expression> <statement>)- Expression should be logical
>>> (set! x 1)
>>> (if (< x 5) (set! x (+ x 1)))
>>> x
2.0
(while <expression> <statement>)- Expression should be logical
>>> (set! x 1)
>>> (while (< x 5) (set! x (+ x 1)))
>>> x
5.0
(begin <statement> [<statement>..])
>>> (begin (set! x 1.2) (set! y 3.2) (set! z (+ x y)))
>>> x
1.2
>>> y
3.2
>>> z
4.4
(let <variable> <expression> <expression>)- Equals to (let var = expr in expr)
- Can be nested
>>> (let x (+ 1 2) (+ x 5))
8.0
>>> (let x 1 (let y 2 (+ x y)))
3.0
>>> (let x (lambda y (+ y 1)) (x 2))
3.0
(define (<variable> [<variable>..]) <statement>)
>>> (define (foo x y) (return (+ x y)))
>>> (foo 1 2)
3.0
>>> (define (bar x) (if (= x 5) (return 5) (return (bar (+ x 1)))))
>>> (bar 1)
5.0
(lambda <variable> <expression>)- Can be nested
>>> (set! x (lambda y (+ y 1)))
>>> x
["y"] Return (+ y 1.0) fromList []
>>> (x 1)
2.0
>>> (set! foo (lambda x (lambda y (+ x y))))
>>> foo
["x"] (return (lambda y (+ x y))) fromList []
>>> (foo 2)
["y"] (return (+ x y)) fromList [("x",DoubleValue 2.0)]
>>> ((foo 2) 3)
5.0
- Using
:tto prettify the most recent valid input
>>> (+ 1 2)
3.0
>>> :t
(+ 1.0 2.0)
>>> (+ (- 1 2) 1)
0.0
>>> :t
(+ (- 1.0 2.0)
1.0)
>>> (if (> 1 2) skip (set! x 2))
>>> :t
(if (> 1.0 2.0)
skip
(set! x
2.0))
>>> (while (> 1 2) (set! y 1))
>>> :t
(while (> 1.0 2.0)
(set! y
1.0))
>>> (let y (+ 1 x) (+ x y))
5.0
>>> :t
(let y
(+ 1.0 x)
(+ x y))
>>> (define (foo x) (return (+ 1 x)))
>>> :t
(define foo (x)
(return (+ 1.0 x))
>>> (foo 1)
2.0
stack exec ki -- -t <inFile> -o <outFile>stack exec ki -- -t <inFile> -o <outFile>
# Output AST
stack exec kc -- -t /Users/.../in.txt -o /Users/.../out.txt
# Interpreting executate
stack exec kc -- -i /Users/.../in.txt -o /Users/.../out.txt
stack exec kc -- <inFile> -o <outFile>stack exec kc -- <outFile> -ir
# Compile to IR
stack exec kc -- /Users/.../in.txt -o /Users/.../out.txt
# Executate IR
stack exec kc -- /Users/.../out.txt -ir
- KMP algorithm
(define (kmp text pattern m n)
(begin
(set! i 0)
(set! j (- 0 1))
(set! a 0)
(make-vector answer 100)
(make-vector next 100)
(vector-set! next 0 (- 0 1))
(while (< i n)
(begin
(while (and (> j (- 0 1)) (not (= (vector-ref pattern i) (vector-ref pattern j))))
(set! j (vector-ref next j))
)
(set! i (+ 1 i))
(set! j (+ 1 j))
(if (and (and (not (= i n)) (not (= j m))) (= (vector-ref pattern i) (vector-ref pattern j)))
(vector-set! next i (vector-ref next j))
(if (and (= i n) (= j m))
(vector-set! next i (vector-ref next j))
(vector-set! next i j)
)
)
)
)
(set! i 0)
(set! j 0)
(while (< j m)
(begin
(while (and (> i (- 1 0)) (not (= (vector-ref text j) (vector-ref pattern i))))
(set! i (vector-ref next i))
)
(set! i (+ 1 i))
(set! j (+ 1 j))
(if (>= i n)
(begin
(vector-set! answer a (- j i))
(set! a (+ 1 a))
(set! i (vector-ref next i))
)
)
)
)
(return answer)
)
)
(define (main)
(begin
(make-vector text 8)
(make-vector pattern 2)
(vector-set! text 0 'a')
(vector-set! text 1 'n')
(vector-set! text 2 'p')
(vector-set! text 3 'a')
(vector-set! text 4 'n')
(vector-set! text 5 'm')
(vector-set! text 6 'a')
(vector-set! text 7 'n')
(vector-set! pattern 0 'a')
(vector-set! pattern 0 'n')
(return (kmp text pattern 8 2))
)
)