Skip_list.Make
module _ : sig ... end
A cell in the skip list carrying a given 'content
and back pointers of type 'ptr
.
val pp :
pp_ptr:(Stdlib.Format.formatter -> 'ptr -> unit) ->
pp_content:(Stdlib.Format.formatter -> 'content -> unit) ->
Stdlib.Format.formatter ->
('content, 'ptr) cell ->
unit
val encoding :
'ptr Data_encoding.t ->
'content Data_encoding.t ->
('content, 'ptr) cell Data_encoding.t
val index : (_, _) cell -> Z.t
index cell
returns the position of cell
in the sequence.
val content : ('content, 'ptr) cell -> 'content
content cell
is the content carried by the cell
.
val back_pointer : ('content, 'ptr) cell -> int -> 'ptr option
back_pointer cell i
returns Some ptr
if ptr
is the i
-th back pointer of cell
. Returns None
if the cell contains less than i + 1
back pointers.
val back_pointers : ('content, 'ptr) cell -> 'ptr list
back_pointers cell
returns the back pointers of cell
.
val genesis : 'content -> ('content, 'ptr) cell
genesis content
is the first cell of a skip list. It has no back pointers.
val next :
prev_cell:('content, 'ptr) cell ->
prev_cell_ptr:'ptr ->
'content ->
('content, 'ptr) cell
next ~prev_cell ~prev_cell_ptr content
creates a new cell that carries some content
, that follows prev_cell
.
type ('ptr, 'content) search_result = {
rev_path : ('ptr, 'content) cell list;
last_cell : ('ptr, 'content) search_cell_result;
}
val pp_search_result :
pp_cell:(Stdlib.Format.formatter -> ('ptr, 'content) cell -> unit) ->
Stdlib.Format.formatter ->
('ptr, 'content) search_result ->
unit
module type MONADIC = sig ... end
Functions in the empty monad are accessible directly.
include MONADIC with type 'a result := 'a
val find :
deref:('ptr -> ('content, 'ptr) cell option) ->
cell_ptr:'ptr ->
target_index:Z.t ->
('content, 'ptr) cell option
find ~deref ~cell_ptr ~target_index
returns Some cell
where cell
is the cell at position target_index
. This is done by dereferencing the last pointer of the path returned by back_path
.
val back_path :
deref:('ptr -> ('content, 'ptr) cell option) ->
cell_ptr:'ptr ->
target_index:Z.t ->
'ptr list option
back_path ~deref ~cell_ptr ~target_index
returns Some path
where path
is a sequence of back pointers to traverse to go from cell_ptr
to the cell at position target_index
in the sequence denoted by (deref, cell_ptr)
.
val valid_back_path :
equal_ptr:('ptr -> 'ptr -> bool) ->
deref:('ptr -> ('content, 'ptr) cell option) ->
cell_ptr:'ptr ->
target_ptr:'ptr ->
'ptr list ->
bool
valid_back_path ~equal_ptr ~deref ~cell_ptr ~target_ptr path
returns true
iff path
is a valid and minimal path from cell_ptr
to target_ptr
in the skip list denoted by (deref, cell_ptr)
.
val search :
deref:('ptr -> ('content, 'ptr) cell option) ->
compare:('content -> int) ->
cell:('content, 'ptr) cell ->
('content, 'ptr) search_result
search ~deref ~compare ~cell
allows to find a cell of the skip list according to its content. This function assumes that the content of the cells is in increasing order according to the ordering defined by the function compare
. In other words, this function assumes that compare
is a function that returns a negative integer for cells before the target and a positive integer for cells after the target. The value returned by this function is {rev_path; last_cell}
such that.
rev_path = []
if and only if compare (content cell) > 0
A
to cell B
, rev_path
contains the list of cells to go from B
to A
. Consequently, the first element of rev_path
is B
. Except for Nearest_lower
, this path is a minimal path.last_pointer = Deref_returned_none
if deref
fails to associate a cell to a pointer during the search. In that case, rev_path
is a path from cell
to candidate
where candidate
is the last cell for which candidate did not fail and such that compare (content (candidate)) > 0
.last_pointer = No_exact_or_lower_ptr
if for all cell of the skip list, compare (content cell) > 0
. In that case, rev_path
is a path from cell
to the genesis cell.last_pointer = Found target
if there is a cell target
such that compare (content target) = 0
and a path from cell
to target
. In that case, rev_path
is the minimal path from cell
to target
.last_pointer = Nearest_lower {lower;upper}
if there is no cell in the skip list such that compare (content cell) = 0
. In that case lower
is the unique cell such that compare (content
lower) < 0
and for all other cells candidate
such that compare (content candidate) < 0
then there is a path from lower
to candidate
. upper
, if it exists is the successor cell to lower
, i.e. deref ((back_pointer upper) 0) = Some
lower
. In that case, rev_path
is a path from cell
to lower
. This path is *NOT* minimal but almost. The path is minimal from cell
to upper=Some up
. By minimality, the path is logarithmic. Consequently, since there is a direct pointer from up
to lower
, the passe to lower
is also logarithmic.If a target cell target_cell
exists, i.e. there is a cell such that compare target_cell = 0
, then it is not necessary for deref
to return Some cell
for all cell
such that compare
cell < 0
. If a target_cell
does not exist, the lowest bound for which deref
must return Some cell
is unknown.
This module contains functions in the Lwt
monad.