lists

Implementation of:

Basic Usage

Because it makes no sense to do otherwise, the next and prev pointers are not hidden from you and can be manipulated directly for efficiency.

Lists

import lists

var
  l = initDoublyLinkedList[int]()
  a = newDoublyLinkedNode[int](3)
  b = newDoublyLinkedNode[int](7)
  c = newDoublyLinkedNode[int](9)

l.append(a)
l.append(b)
l.prepend(c)

assert a.next == b
assert a.prev == c
assert c.next == a
assert c.next.next == b
assert c.prev == nil
assert b.next == nil

Rings

import lists

var
  l = initSinglyLinkedRing[int]()
  a = newSinglyLinkedNode[int](3)
  b = newSinglyLinkedNode[int](7)
  c = newSinglyLinkedNode[int](9)

l.append(a)
l.append(b)
l.prepend(c)

assert c.next == a
assert a.next == b
assert c.next.next == b
assert b.next == c
assert c.next.next.next == c

See also

Types

DoublyLinkedNodeObj[T] = object
  next*: (ref DoublyLinkedNodeObj[T])
  prev* {...}{.cursor.}: ref DoublyLinkedNodeObj[T]
  value*: T

A node a doubly linked list consists of.

It consists of a value field, and pointers to next and prev.

  Source Edit
DoublyLinkedNode[T] = ref DoublyLinkedNodeObj[T]
  Source Edit
SinglyLinkedNodeObj[T] = object
  next*: (ref SinglyLinkedNodeObj[T])
  value*: T

A node a singly linked list consists of.

It consists of a value field, and a pointer to next.

  Source Edit
SinglyLinkedNode[T] = ref SinglyLinkedNodeObj[T]
  Source Edit
SinglyLinkedList[T] = object
  head*: (SinglyLinkedNode[T])
  tail* {...}{.cursor.}: SinglyLinkedNode[T]

A singly linked list.

Use initSinglyLinkedList proc to create a new empty list.

  Source Edit
DoublyLinkedList[T] = object
  head*: (DoublyLinkedNode[T])
  tail* {...}{.cursor.}: DoublyLinkedNode[T]

A doubly linked list.

Use initDoublyLinkedList proc to create a new empty list.

  Source Edit
SinglyLinkedRing[T] = object
  head*: (SinglyLinkedNode[T])
  tail* {...}{.cursor.}: SinglyLinkedNode[T]

A singly linked ring.

Use initSinglyLinkedRing proc to create a new empty ring.

  Source Edit
DoublyLinkedRing[T] = object
  head*: DoublyLinkedNode[T]

A doubly linked ring.

Use initDoublyLinkedRing proc to create a new empty ring.

  Source Edit
SomeLinkedList[T] = SinglyLinkedList[T] | DoublyLinkedList[T]
  Source Edit
SomeLinkedRing[T] = SinglyLinkedRing[T] | DoublyLinkedRing[T]
  Source Edit
SomeLinkedCollection[T] = SomeLinkedList[T] | SomeLinkedRing[T]
  Source Edit
SomeLinkedNode[T] = SinglyLinkedNode[T] | DoublyLinkedNode[T]
  Source Edit

Procs

proc initSinglyLinkedList[T](): SinglyLinkedList[T]
Creates a new singly linked list that is empty.

Examples:

var a = initSinglyLinkedList[int]()
  Source Edit
proc initDoublyLinkedList[T](): DoublyLinkedList[T]
Creates a new doubly linked list that is empty.

Examples:

var a = initDoublyLinkedList[int]()
  Source Edit
proc initSinglyLinkedRing[T](): SinglyLinkedRing[T]
Creates a new singly linked ring that is empty.

Examples:

var a = initSinglyLinkedRing[int]()
  Source Edit
proc initDoublyLinkedRing[T](): DoublyLinkedRing[T]
Creates a new doubly linked ring that is empty.

Examples:

var a = initDoublyLinkedRing[int]()
  Source Edit
proc newDoublyLinkedNode[T](value: T): (DoublyLinkedNode[T])
Creates a new doubly linked node with the given value.

Examples:

var n = newDoublyLinkedNode[int](5)
assert n.value == 5
  Source Edit
proc newSinglyLinkedNode[T](value: T): (SinglyLinkedNode[T])
Creates a new singly linked node with the given value.

Examples:

var n = newSinglyLinkedNode[int](5)
assert n.value == 5
  Source Edit
proc `$`[T](L: SomeLinkedCollection[T]): string
Turns a list into its string representation for logging and printing.   Source Edit
proc find[T](L: SomeLinkedCollection[T]; value: T): SomeLinkedNode[T]

Searches in the list for a value. Returns nil if the value does not exist.

See also:

Examples:

var a = initSinglyLinkedList[int]()
a.append(9)
a.append(8)
assert a.find(9).value == 9
assert a.find(1) == nil
  Source Edit
proc contains[T](L: SomeLinkedCollection[T]; value: T): bool {...}{.inline.}

Searches in the list for a value. Returns false if the value does not exist, true otherwise.

See also:

Examples:

var a = initSinglyLinkedList[int]()
a.append(9)
a.append(8)
assert a.contains(9)
assert 8 in a
assert(not a.contains(1))
assert 2 notin a
  Source Edit
proc append[T](L: var SinglyLinkedList[T]; n: SinglyLinkedNode[T]) {...}{.inline.}

Appends (adds to the end) a node n to L. Efficiency: O(1).

See also:

Examples:

var
  a = initSinglyLinkedList[int]()
  n = newSinglyLinkedNode[int](9)
a.append(n)
assert a.contains(9)
  Source Edit
proc append[T](L: var SinglyLinkedList[T]; value: T) {...}{.inline.}

Appends (adds to the end) a value to L. Efficiency: O(1).

See also:

Examples:

var a = initSinglyLinkedList[int]()
a.append(9)
a.append(8)
assert a.contains(9)
  Source Edit
proc prepend[T](L: var SinglyLinkedList[T]; n: SinglyLinkedNode[T]) {...}{.inline.}

Prepends (adds to the beginning) a node to L. Efficiency: O(1).

See also:

Examples:

var
  a = initSinglyLinkedList[int]()
  n = newSinglyLinkedNode[int](9)
a.prepend(n)
assert a.contains(9)
  Source Edit
proc prepend[T](L: var SinglyLinkedList[T]; value: T) {...}{.inline.}

Prepends (adds to the beginning) a node to L. Efficiency: O(1).

See also:

Examples:

var a = initSinglyLinkedList[int]()
a.prepend(9)
a.prepend(8)
assert a.contains(9)
  Source Edit
proc append[T](L: var DoublyLinkedList[T]; n: DoublyLinkedNode[T])

Appends (adds to the end) a node n to L. Efficiency: O(1).

See also:

Examples:

var
  a = initDoublyLinkedList[int]()
  n = newDoublyLinkedNode[int](9)
a.append(n)
assert a.contains(9)
  Source Edit
proc append[T](L: var DoublyLinkedList[T]; value: T)

Appends (adds to the end) a value to L. Efficiency: O(1).

See also:

Examples:

var a = initDoublyLinkedList[int]()
a.append(9)
a.append(8)
assert a.contains(9)
  Source Edit
proc prepend[T](L: var DoublyLinkedList[T]; n: DoublyLinkedNode[T])

Prepends (adds to the beginning) a node n to L. Efficiency: O(1).

See also:

Examples:

var
  a = initDoublyLinkedList[int]()
  n = newDoublyLinkedNode[int](9)
a.prepend(n)
assert a.contains(9)
  Source Edit
proc prepend[T](L: var DoublyLinkedList[T]; value: T)

Prepends (adds to the beginning) a value to L. Efficiency: O(1).

See also:

Examples:

var a = initDoublyLinkedList[int]()
a.prepend(9)
a.prepend(8)
assert a.contains(9)
  Source Edit
proc remove[T](L: var DoublyLinkedList[T]; n: DoublyLinkedNode[T])
Removes a node n from L. Efficiency: O(1).

Examples:

var
  a = initDoublyLinkedList[int]()
  n = newDoublyLinkedNode[int](5)
a.append(n)
assert 5 in a
a.remove(n)
assert 5 notin a
  Source Edit
proc append[T](L: var SinglyLinkedRing[T]; n: SinglyLinkedNode[T])

Appends (adds to the end) a node n to L. Efficiency: O(1).

See also:

Examples:

var
  a = initSinglyLinkedRing[int]()
  n = newSinglyLinkedNode[int](9)
a.append(n)
assert a.contains(9)
  Source Edit
proc append[T](L: var SinglyLinkedRing[T]; value: T)

Appends (adds to the end) a value to L. Efficiency: O(1).

See also:

Examples:

var a = initSinglyLinkedRing[int]()
a.append(9)
a.append(8)
assert a.contains(9)
  Source Edit
proc prepend[T](L: var SinglyLinkedRing[T]; n: SinglyLinkedNode[T])

Prepends (adds to the beginning) a node n to L. Efficiency: O(1).

See also:

Examples:

var
  a = initSinglyLinkedRing[int]()
  n = newSinglyLinkedNode[int](9)
a.prepend(n)
assert a.contains(9)
  Source Edit
proc prepend[T](L: var SinglyLinkedRing[T]; value: T)

Prepends (adds to the beginning) a value to L. Efficiency: O(1).

See also:

Examples:

var a = initSinglyLinkedRing[int]()
a.prepend(9)
a.prepend(8)
assert a.contains(9)
  Source Edit
proc append[T](L: var DoublyLinkedRing[T]; n: DoublyLinkedNode[T])

Appends (adds to the end) a node n to L. Efficiency: O(1).

See also:

Examples:

var
  a = initDoublyLinkedRing[int]()
  n = newDoublyLinkedNode[int](9)
a.append(n)
assert a.contains(9)
  Source Edit
proc append[T](L: var DoublyLinkedRing[T]; value: T)

Appends (adds to the end) a value to L. Efficiency: O(1).

See also:

Examples:

var a = initDoublyLinkedRing[int]()
a.append(9)
a.append(8)
assert a.contains(9)
  Source Edit
proc prepend[T](L: var DoublyLinkedRing[T]; n: DoublyLinkedNode[T])

Prepends (adds to the beginning) a node n to L. Efficiency: O(1).

See also:

Examples:

var
  a = initDoublyLinkedRing[int]()
  n = newDoublyLinkedNode[int](9)
a.prepend(n)
assert a.contains(9)
  Source Edit
proc prepend[T](L: var DoublyLinkedRing[T]; value: T)

Prepends (adds to the beginning) a value to L. Efficiency: O(1).

See also:

Examples:

var a = initDoublyLinkedRing[int]()
a.prepend(9)
a.prepend(8)
assert a.contains(9)
  Source Edit
proc remove[T](L: var DoublyLinkedRing[T]; n: DoublyLinkedNode[T])
Removes n from L. Efficiency: O(1).

Examples:

var
  a = initDoublyLinkedRing[int]()
  n = newDoublyLinkedNode[int](5)
a.append(n)
assert 5 in a
a.remove(n)
assert 5 notin a
  Source Edit

Iterators

iterator items[T](L: SomeLinkedList[T]): T

Yields every value of L.

See also:

Examples:

var a = initSinglyLinkedList[int]()
for i in 1 .. 3:
  a.append(10*i)

for x in a:  # the same as: for x in items(a):
  echo x

# 10
# 20
# 30
  Source Edit
iterator items[T](L: SomeLinkedRing[T]): T

Yields every value of L.

See also:

Examples:

var a = initSinglyLinkedRing[int]()
for i in 1 .. 3:
  a.append(10*i)

for x in a:  # the same as: for x in items(a):
  echo x

# 10
# 20
# 30
  Source Edit
iterator mitems[T](L: var SomeLinkedList[T]): var T

Yields every value of L so that you can modify it.

See also:

Examples:

var a = initSinglyLinkedList[int]()
for i in 1 .. 5:
  a.append(10 * i)
assert $a == "[10, 20, 30, 40, 50]"
for x in mitems(a):
  x = 5 * x - 1
assert $a == "[49, 99, 149, 199, 249]"
  Source Edit
iterator mitems[T](L: var SomeLinkedRing[T]): var T

Yields every value of L so that you can modify it.

See also:

Examples:

var a = initSinglyLinkedRing[int]()
for i in 1 .. 5:
  a.append(10 * i)
assert $a == "[10, 20, 30, 40, 50]"
for x in mitems(a):
  x = 5 * x - 1
assert $a == "[49, 99, 149, 199, 249]"
  Source Edit
iterator nodes[T](L: SomeLinkedList[T]): SomeLinkedNode[T]

Iterates over every node of x. Removing the current node from the list during traversal is supported.

See also:

Examples:

var a = initDoublyLinkedList[int]()
for i in 1 .. 5:
  a.append(10 * i)
assert $a == "[10, 20, 30, 40, 50]"
for x in nodes(a):
  if x.value == 30:
    a.remove(x)
  else:
    x.value = 5 * x.value - 1
assert $a == "[49, 99, 199, 249]"
  Source Edit
iterator nodes[T](L: SomeLinkedRing[T]): SomeLinkedNode[T]

Iterates over every node of x. Removing the current node from the list during traversal is supported.

See also:

Examples:

var a = initDoublyLinkedRing[int]()
for i in 1 .. 5:
  a.append(10 * i)
assert $a == "[10, 20, 30, 40, 50]"
for x in nodes(a):
  if x.value == 30:
    a.remove(x)
  else:
    x.value = 5 * x.value - 1
assert $a == "[49, 99, 199, 249]"
  Source Edit