BatFingerTree.S
A type meant to avoid duplication of signatures.
For the generic finger tree, this type will be monoid:'m monoid -> measure:('a -> 'm) -> 'wrapped_type
.
Once the finger tree has been specialized, the resulting module should be reexported in such a way that the type is now simply 'wrapped_type
.
val empty : ('a, 'm) fg
empty
is the sequence with no elements.
val singleton : 'a -> ('a, 'm) fg
singleton elt
build the sequence containing elt
as its sole element.
O(1).
cons t elt
adds elt
to the left of t
.
O(1) amortized, O(log(n)) worst case.
snoc t elt
adds elt
to the right of t
.
O(1) amortized, O(log(n)) worst case.
front t
returns None
when t
is empty, or Some (tl, hd)
when hd
is the first element of the sequence and tl
is the rest of the sequence.
O(1) amortized, O(log(n)) worst case.
front_exn t
returns (tl, hd)
when hd
is the first element of the sequence and tl
is the rest of the sequence.
val head : ('a, 'm) fg -> 'a option
head t
returns None
if t
is empty, or Some hd
otherwise, where hd
is the first element of the sequence.
O(1).
val head_exn : ('a, 'm) fg -> 'a
head_exn t
returns the first element of the sequence.
val last : ('a, 'm) fg -> 'a option
last t
returns None
if t
is empty, or Some hd
otherwise, where hd
is the last element of the sequence.
O(1).
val last_exn : ('a, 'm) fg -> 'a
last_exn t
returns the last element of the sequence.
tail t
returns None
when t
is empty, or Some tl
where tl
is the sequence t
where the first element has been removed.
O(1) amortized, O(log(n)) worst case.
tail_exn t
returns the sequence t
where the first element has been removed.
init t
returns None
if t
is empty, or Some init
where init
is the sequence t
where the last element has been removed.
O(1) amortized, O(log(n)) worst case.
init_exn t
returns the sequence t
where the last element has been removed.
rear t
returns None
when t
is empty, or Some (init, last)
where last
is the last element of the sequence and init
is the rest of the sequence.
O(1) amortized, O(log(n)) worst case.
rear_exn t
returns (init, last)
when last
is the last element of the sequence and init
is the rest of the sequence.
val size : ('a, 'm) fg -> int
size t
returns the number of elements in the sequence. If you want to know that a sequence is empty, it is much better to use is_empty
.
O(n).
val is_empty : ('a, 'm) fg -> bool
is_empty t
returns true
when the sequence has no elements.
O(1).
val fold_left : ('acc -> 'a -> 'acc) -> 'acc -> ('a, 'm) fg -> 'acc
fold_left
is equivalent to List.fold_left
.
O(n).
val fold_right : ('acc -> 'a -> 'acc) -> 'acc -> ('a, 'm) fg -> 'acc
fold_right
is equivalent to List.fold_right
.
O(n).
val iter : ('a -> unit) -> ('a, 'm) fg -> unit
iter
is equivalent to List.iter
.
O(n).
val iter_right : ('a -> unit) -> ('a, 'm) fg -> unit
iter_right
is equivalent to List.iter o List.rev
.
O(n).
compare cmp t1 t2
compares the two sequences lexicographically.
O(n).
equal eq t1 t2
returns true
when the two sequences contain the the same elements.
O(n).
enum t
builds an enumeration of the elements of t
going from left to right.
O(1).
Forcing the whole enumeration takes O(n).
backwards t
builds an enumeration of the elements of t
going from right to left. Same complexity as enum
.
val to_list : ('a, 'm) fg -> 'a list
to_list t
is equivalent to BatList.of_enum (enum t)
.
O(n).
val to_list_backwards : ('a, 'm) fg -> 'a list
to_list_backwards t
is equivalent to BatList.of_enum (backwards t)
.
O(n).
of_enum e
build the sequence containing the elements of e
in the same order.
Its complexity is the complexity of forcing the enumeration.
of_backwards e
is equivalent to reverse (of_enum e)
.
O(n).
of_list l
is equivalent to of_enum (BatList.enum l)
.
O(n).
of_list_backwards l
is equivalent to of_enum_backwards (BatList.enum l)
.
O(n).
map
is equivalent to List
.map.
O(n).
map_right
is equivalent to List.rev o List.map o List.rev
.
O(n).
append
is equivalent to List.append
.
O(log(min(n,m))).
reverse t
is equivalent to of_list (List.rev (to_list t))
.
O(n).
val print : ?first:string -> ?last:string -> ?sep:string ->
('a, 'b) BatIO.printer -> (('a, _) fg, 'b) BatIO.printer