Module BatDllist


module BatDllist: sig .. end
A mutable, imperative, circular, doubly linked list library

This module implements a doubly linked list in a mutable or imperitive style (changes to the list are visible to all copies of the list).

Note This implementation of doubly-linked lists does not support empty lists.
Author(s): Brian Hurt, Jesse Guardiani, David Teller


type 'a node_t 
type 'a t = 'a node_t 

The type of a non-empty doubly-linked list.
include BatInterfaces.Mappable
include BatEnum.Enumerable
exception Empty

node functions

val create : 'a -> 'a node_t
Creates a node. This is an O(1) operation.
val copy : 'a node_t -> 'a node_t
Copy the list attached to the given node and return the copy of the given node. This is an O(N) operation.
val length : 'a node_t -> int
Returns the length of the list. This is an O(N) operation.
val rev : 'a node_t -> unit
List reversal. This is an O(N) operation.
val add : 'a node_t -> 'a -> unit
add n a Creates a new node containing data a and inserts it into the list after node n. This is an O(1) operation.
val append : 'a node_t -> 'a -> 'a node_t
append n a Creates a new node containing data a and inserts it into the list after node n. Returns new node. This is an O(1) operation.
val prepend : 'a node_t -> 'a -> 'a node_t
prepend n a Creates a new node containing data a and inserts it into the list before node n. Returns new node. This is an O(1) operation.
val promote : 'a node_t -> unit
promote n Swaps n with next n. This is an O(1) operation.
val demote : 'a node_t -> unit
demote n Swaps n with prev n. This is an O(1) operation.
val remove : 'a node_t -> unit
Remove node from the list no matter where it is. This is an O(1) operation.
val drop : 'a node_t -> 'a node_t
Remove node from the list no matter where it is. Return next node. This is an O(1) operation.
val rev_drop : 'a node_t -> 'a node_t
Remove node from the list no matter where it is. Return previous node. This is an O(1) operation.
val splice : 'a node_t -> 'a node_t -> unit
splice n1 n2 Connects n1 and n2 so that next n1 == n2 && prev n2 == n1. This can be used to connect two discrete lists, or, if used on two nodes within the same list, it can be used to separate the nodes between n1 and n2 from the rest of the list. In this case, those nodes become a discrete list by themselves. This is an O(1) operation.
val get : 'a node_t -> 'a
Given a node, get the data associated with that node. This is an O(1) operation.
val set : 'a node_t -> 'a -> unit
Given a node, set the data associated with that node. This is an O(1) operation.
val next : 'a node_t -> 'a node_t
Given a node, get the next element in the list after the node.

The list is circular, so the last node of the list returns the first node of the list as it's next node.

This is an O(1) operation.

val prev : 'a node_t -> 'a node_t
Given a node, get the previous element in the list before the node.

The list is circular, so the first node of the list returns the last element of the list as it's previous node.

This is an O(1) operation.

val skip : 'a node_t -> int -> 'a node_t
skip n i Return the node that is i nodes after node n in the list. If i is negative then return the node that is i nodes before node n in the list. This is an O(N) operation.
val iter : ('a -> unit) -> 'a node_t -> unit
iter f n Apply f to every element in the list, starting at n. This is an O(N) operation.
val fold_left : ('a -> 'b -> 'a) -> 'a -> 'b node_t -> 'a
Accumulate a value over the entire list. This works like List.fold_left. This is an O(N) operation.
val fold_right : ('a -> 'b -> 'b) -> 'a node_t -> 'b -> 'b
Accumulate a value over the entire list. This works like List.fold_right, but since the list is bidirectional, it doesn't suffer the performance problems of List.fold_right. This is an O(N) operation.
val for_all : ('a -> bool) -> 'a node_t -> bool
val exists : ('a -> bool) -> 'a node_t -> bool
val map : ('a -> 'b) -> 'a node_t -> 'b node_t
Allocate a new list, with entirely new nodes, whose values are the transforms of the values of the original list. Note that this does not modify the given list. This is an O(N) operation.
val filter : ('a -> bool) -> 'a node_t -> 'a node_t
filter p l returns a new list, with entirely new nodes, whose values are all the elements of the list l that satisfy the predicate p. The order of the elements in the input list is preserved.
Raises Empty if the resulting list is empty.
val filter_map : ('a -> 'b option) -> 'a node_t -> 'b node_t
filter_map f l calls (f a0) (f a1).... (f an) where a0..an are the elements of l. It returns a new list of elements bi such as f ai = Some bi (when f returns None, the corresponding element of l is discarded).
Raises Empty if the resulting list is empty.

list conversion

val to_list : 'a node_t -> 'a list
Converts a dllist to a normal list. This is an O(N) operation.
val of_list : 'a list -> 'a node_t
Converts from a normal list to a Dllist and returns the first node. Raises Empty if given list is empty. This is an O(N) operation.

enums

val enum : 'a node_t -> 'a BatEnum.t
Create an enum of the list. Note that modifying the list while the enum exists will have undefined effects. This is an O(1) operation.
val rev_enum : 'a node_t -> 'a BatEnum.t
Create a reverse enum of the list. Note that modifying the list while the enum exists will have undefined effects. This is an O(1) operation.
val of_enum : 'a BatEnum.t -> 'a node_t
Create a dllist from an enum. This consumes the enum, and allocates a whole new dllist. Raises Empty if given enum is empty. This is an O(N) operation.

Boilerplate code


Printing

val print : ?first:string ->
?last:string ->
?sep:string ->
('a BatInnerIO.output -> 'b -> unit) ->
'a BatInnerIO.output -> 'b t -> unit