queue
Abstract Data Type for FIFO Queues
This module implements (double ended) FIFO queues in an efficient manner.
All functions fail with reason badarg
if arguments
are of wrong type, for example queue arguments are not
queues, indexes are not integers, list arguments are
not lists. Improper lists cause internal crashes.
An index out of range for a queue also causes
a failure with reason badarg
.
Some functions, where noted, fail with reason empty
for an empty queue.
The data representing a queue as used by this module should be regarded as opaque by other modules. Any code assuming knowledge of the format is running on thin ice.
All operations has an amortized O(1) running time, except
len/1
, join/2
, split/2
, filter/2
and member/2
that have O(n).
To minimize the size of a queue minimizing
the amount of garbage built by queue operations, the queues
do not contain explicit length information, and that is
why len/1
is O(n). If better performance for this
particular operation is essential, it is easy for
the caller to keep track of the length.
Queues are double ended. The mental picture of a queue is a line of people (items) waiting for their turn. The queue front is the end with the item that has waited the longest. The queue rear is the end an item enters when it starts to wait. If instead using the mental picture of a list, the front is called head and the rear is called tail.
Entering at the front and exiting at the rear are reverse operations on the queue.
The module has several sets of interface functions. The "Original API", the "Extended API" and the "Okasaki API".
The "Original API" and the "Extended API" both use the mental picture of a waiting line of items. Both also have reverse operations suffixed "_r".
The "Original API" item removal functions return compound terms with both the removed item and the resulting queue. The "Extended API" contain alternative functions that build less garbage as well as functions for just inspecting the queue ends. Also the "Okasaki API" functions build less garbage.
The "Okasaki API" is inspired by "Purely Functional Data structures" by Chris Okasaki. It regards queues as lists. The API is by many regarded as strange and avoidable. For example many reverse operations have lexically reversed names, some with more readable but perhaps less understandable aliases.
Original API
Functions
new() -> Q
Q = queue()
Returns an empty queue.
is_queue(Term) -> true | false
Term = term()
Tests if Q
is a queue and returns true
if so and
false
otherwise.
is_empty(Q) -> true | false
Q = queue()
Tests if Q
is empty and returns true
if so and
false
otherwise.
len(Q) -> N
Q = queue()
N = integer()
Calculates and returns the length of queue Q
.
in(Item, Q1) -> Q2
Item = term()
Q1 = Q2 = queue()
Inserts Item
at the rear of queue Q1
.
Returns the resulting queue Q2
.
in_r(Item, Q1) -> Q2
Item = term()
Q1 = Q2 = queue()
Inserts Item
at the front of queue Q1
.
Returns the resulting queue Q2
.
out(Q1) -> Result
Result = {{value, Item}, Q2} | {empty, Q1}
Q1 = Q2 = queue()
Removes the item at the front of queue Q1
. Returns the
tuple {{value, Item}, Q2}
, where Item
is the
item removed and Q2
is the resulting queue. If Q1
is
empty, the tuple {empty, Q1}
is returned.
out_r(Q1) -> Result
Result = {{value, Item}, Q2} | {empty, Q1}
Q1 = Q2 = queue()
Removes the item at the rear of the queue Q1
. Returns the
tuple {{value, Item}, Q2}
, where Item
is the
item removed and Q2
is the new queue. If Q1
is
empty, the tuple {empty, Q1}
is returned.
from_list(L) -> queue()
L = list()
Returns a queue containing the items in L
in the
same order; the head item of the list will become the front
item of the queue.
to_list(Q) -> list()
Q = queue()
Returns a list of the items in the queue in the same order; the front item of the queue will become the head of the list.
reverse(Q1) -> Q2
Q1 = Q2 = queue()
Returns a queue Q2
that contains the items of
Q1
in the reverse order.
split(N, Q1) -> {Q2,Q3}
N = integer()
Q1 = Q2 = Q3 = queue()
Splits Q1
in two. The N
front items
are put in Q2
and the rest in Q3
join(Q1, Q2) -> Q3
Q1 = Q2 = Q3 = queue()
Returns a queue Q3
that is the result of joining
Q1
and Q2
with Q1
in front of
Q2
.
filter(Fun, Q1) -> Q2
Fun = fun(Item) -> bool() | list()
Q1 = Q2 = queue()
Returns a queue Q2
that is the result of calling
Fun(Item)
on all items in Q1
,
in order from front to rear.
If Fun(Item)
returns true
, Item
is copied to the result queue. If it returns false
,
Item
is not copied. If it returns a list
the list elements are inserted instead of Item
in the
result queue.
So, Fun(Item)
returning [Item]
is thereby
semantically equivalent to returning true
, just
as returning []
is semantically equivalent to
returning false
. But returning a list builds
more garbage than returning an atom.
member(Item, Q) -> bool()
Item = term()
Q = queue()
Returns true
if Item
matches some element
in Q
, otherwise false
.
Extended API
Functions
get(Q) -> Item
Item = term()
Q = queue()
Returns Item
at the front of queue Q
.
Fails with reason empty
if Q
is empty.
get_r(Q) -> Item
Item = term()
Q = queue()
Returns Item
at the rear of queue Q
.
Fails with reason empty
if Q
is empty.
drop(Q1) -> Q2
Item = term()
Q1 = Q2 = queue()
Returns a queue Q2
that is the result of removing
the front item from Q1
.
Fails with reason empty
if Q1
is empty.
drop_r(Q1) -> Q2
Item = term()
Q1 = Q2 = queue()
Returns a queue Q2
that is the result of removing
the rear item from Q1
.
Fails with reason empty
if Q1
is empty.
peek(Q) -> {value,Item} | empty
Item = term()
Q = queue()
Returns the tuple {value, Item}
where Item
is the
front item of Q
, or empty
if Q1
is empty.
peek_r(Q) -> {value,Item} | empty
Item = term()
Q = queue()
Returns the tuple {value, Item}
where Item
is the
rear item of Q
, or empty
if Q1
is empty.
Okasaki API
Functions
cons(Item, Q1) -> Q2
Item = term()
Q1 = Q2 = queue()
Inserts Item
at the head of queue Q1
. Returns
the new queue Q2
.
head(Q) -> Item
Item = term()
Q = queue()
Returns Item
from the head of queue Q
.
Fails with reason empty
if Q
is empty.
tail(Q1) -> Q2
Item = term()
Q1 = Q2 = queue()
Returns a queue Q2
that is the result of removing
the head item from Q1
.
Fails with reason empty
if Q1
is empty.
snoc(Q1, Item) -> Q2
Item = term()
Q1 = Q2 = queue()
Inserts Item
as the tail item of queue Q1
. Returns
the new queue Q2
.
daeh(Q) -> Item
last(Q) -> Item
Item = term()
Q = queue()
Returns the tail item of queue Q
.
Fails with reason empty
if Q
is empty.
liat(Q1) -> Q2
init(Q1) -> Q2
lait(Q1) -> Q2
Item = term()
Q1 = Q2 = queue()
Returns a queue Q2
that is the result of removing
the tail item from Q1
.
Fails with reason empty
if Q1
is empty.
The name lait/1
is a misspelling - do not use it anymore.