application/octet-stream
•
3.89 KB
•
171 lines
; Put all the LISt Processing stuff in here
[def except-last-pair [let*
[def iter [λ [list rest]
[if [nil? [cdr list]]
[reverse rest]
[iter [cdr list] [cons [car list] rest]]]
]]
[λ [list]
"Return a copy of LIST without the last pair"
[iter list #nil]
]
]]
[def last-pair [λ [list]
"Return the last pair of l"
[if [cdr list]
[last-pair [cdr list]]
list]
]]
[def make-list [let*
[def iter [λ [number value l]
[if [<= number 0]
l
[iter [- number 1] value [cons value l]]]
]]
[λ [number value]
"Return a list of NUMBER elements containing VALUE in every car"
[iter number value #nil]
]
]]
[def reduce [λ [o l s]
"Combine all elements in l using operation o and starting value s"
[if [nil? l]
s
[reduce o [cdr l] [o s [car l]]]]
]]
[def list-ref [λ [l i]
"Returns the the element of list l at location i"
[cond [[nil? l] #nil]
[[<= i 0] [car l]]
[#t [list-ref [cdr l] [-- i]]]
]
]]
[def join [let*
[def iter [λ [str l glue]
[cond [[nil? l] [substr str 0 [- [str/length str] [str/length glue]]]]
[#t [iter [cat str [car l] glue] [cdr l] glue]]
]
]]
[λ [l glue]
"Join LIST into a string with GLUE in between each element"
[iter "" l [string glue]]
]
]]
[def split [let*
[def iter [λ [str separator separator-len start slen]
[let*
[def pos [index-of str separator start]]
[if [and [>= pos start] [< pos slen]]
[cons [substr str start [max [+ start 1] pos]] [iter str separator separator-len [max [+ pos 1] [+ pos [int separator-len]]] slen]]
[cons [substr str start slen]]]
]
]]
[λ [str separator]
"Split STR on every SEPARATOR"
[iter str separator [max 1 [str/length separator]] 0 [str/length str]]
]
]]
[def reverse [λ [l r]
"Return the list l in reverse order"
[if [nil? l]
r
[reverse [cdr l] [cons [car l] r]]]
]]
[def list-length [λ [a t]
"Returns the length of list a"
[if [nil? a]
t
[list-length [cdr a] [++ t]]]
]]
[def filter [λ [p l]
"Runs predicate p over every item in list l and returns a list consiting solely of items where p is true"
[cond [[nil? l] #nil]
[[p [car l]] [cons [car l] [filter p [cdr l]]]]
[#t [filter p [cdr l]]]
]
]]
[def map [λ [f l]
"Runs f over every item in list l and returns the resulting list"
[if [nil? l]
l
[cons [f [car l]] [map f [cdr l]]]]
]]
[def append [let*
[def iter [λ [a b]
[if [nil? a]
b
[iter [cdr a] [cons [car a] b]]]
]]
[λ [a b]
"Appends to two lists a and b together"
[iter [reverse a] b]
]
]]
[def sublist [λ [l start end ret]
"Returns a new list containing all elements of l from start to end"
[cond [[nil? l] [reverse ret]]
[[neg? end] [sublist l start [+ [length l] end]]]
[[zero? end] [reverse ret]]
[[> start 0] [sublist [cdr l] [-- start] [-- end] #nil]]
[[> end 0] [sublist [cdr l] 0 [-- end] [cons [car l] ret]]]
]
]]
[def list-head [λ [l k]
"Returns the first k elemnts of list l"
[sublist l 0 k]
]]
[def list-tail [λ [l k]
"Returns the sublist of l obtained by omitting the first l elements"
[sublist l k [length l]]
]]
[def member [λ [m l]
"Returns the first pair of list l whose car is equal to m"
[cond [[nil? l] #f]
[[eq? [car l] m] l]
[#t [member m [cdr l]]]
]
]]
[def delete [λ [e l]
"Returns a filtered list l with all elements equal to e omitted"
[filter [λ [a] [not [eq? a e]]] l]
]]
[def arg-list [λ [f]
"Return the Argument list of f which can be a Native Function or a Lambda"
[cond [[lambda? f] [reduce cat [map [λ [a] [" " [car a]]] [cl-data f]]]]
[[native? f] [reduce cat [map [λ [a] [" " a]] [car [cl-data f]]]]]
[#t ""]
]
]]
[def getf [let*
[λ [l key]
"Return the value in LIST following KEY"
[cond [[nil? l] #nil]
[[eq? key [car l]] [cadr l]]
[#t [getf [cdr l] key]]
]
]
]]
