Implementation of a deque (double-ended queue). The underlying implementation uses a seq.
None of the procs that get an individual value from the deque can be used on an empty deque. If compiled with boundChecks option, those procs will raise an IndexDefect on such access. This should not be relied upon, as -d:danger or --checks:off will disable those checks and may return garbage or crash the program.
As such, a check to see if the deque is empty is needed before any access, unless your program logic guarantees it indirectly.
import deques var a = initDeque[int]() doAssertRaises(IndexDefect, echo a[0]) for i in 1 .. 5: a.addLast(10*i) assert $a == "[10, 20, 30, 40, 50]" assert a.peekFirst == 10 assert a.peekLast == 50 assert len(a) == 5 assert a.popFirst == 10 assert a.popLast == 50 assert len(a) == 3 a.addFirst(11) a.addFirst(22) a.addFirst(33) assert $a == "[33, 22, 11, 20, 30, 40]" a.shrink(fromFirst = 1, fromLast = 2) assert $a == "[22, 11, 20]"
See also:
- lists module for singly and doubly linked lists and rings
- channels module for inter-thread communication
Procs
proc initDeque[T](initialSize: int = 4): Deque[T]
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Create a new empty deque.
Optionally, the initial capacity can be reserved via initialSize as a performance optimization. The length of a newly created deque will still be 0.
See also:
Source Edit proc toDeque[T](x: openArray[T]): Deque[T]
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Creates a new deque that contains the elements of x (in the same order).
See also:
Example:
var a = toDeque([7, 8, 9]) assert len(a) == 3 assert a.popFirst == 7 assert len(a) == 2
Source Edit proc len[T](deq: Deque[T]): int {...}{.inline.}
- Return the number of elements of deq. Source Edit
proc `[]`[T](deq: Deque[T]; i: Natural): T {...}{.inline.}
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Access the i-th element of deq.
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) assert a[0] == 10 assert a[3] == 40 doAssertRaises(IndexDefect, echo a[8])
Source Edit proc `[]`[T](deq: var Deque[T]; i: Natural): var T {...}{.inline.}
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Access the i-th element of deq and return a mutable reference to it.
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) assert a[0] == 10 assert a[3] == 40 doAssertRaises(IndexDefect, echo a[8])
Source Edit proc `[]=`[T](deq: var Deque[T]; i: Natural; val: T) {...}{.inline.}
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Change the i-th element of deq.
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) a[0] = 99 a[3] = 66 assert $a == "[99, 20, 30, 66, 50]"
Source Edit proc `[]`[T](deq: Deque[T]; i: BackwardsIndex): T {...}{.inline.}
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Access the backwards indexed i-th element.
deq[^1] is the last element.
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) assert a[^1] == 50 assert a[^4] == 20 doAssertRaises(IndexDefect, echo a[^9])
Source Edit proc `[]`[T](deq: var Deque[T]; i: BackwardsIndex): var T {...}{.inline.}
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Access the backwards indexed i-th element.
deq[^1] is the last element.
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) assert a[^1] == 50 assert a[^4] == 20 doAssertRaises(IndexDefect, echo a[^9])
Source Edit proc `[]=`[T](deq: var Deque[T]; i: BackwardsIndex; x: T) {...}{.inline.}
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Change the backwards indexed i-th element.
deq[^1] is the last element.
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) a[^1] = 99 a[^3] = 77 assert $a == "[10, 20, 77, 40, 99]"
Source Edit proc contains[T](deq: Deque[T]; item: T): bool {...}{.inline.}
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Return true if item is in deq or false if not found.
Usually used via the in operator. It is the equivalent of deq.find(item) >= 0.
if x in q: assert q.contains(x)
Source Edit proc addFirst[T](deq: var Deque[T]; item: T)
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Add an item to the beginning of the deq.
See also:
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addFirst(10*i) assert $a == "[50, 40, 30, 20, 10]"
Source Edit proc addLast[T](deq: var Deque[T]; item: T)
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Add an item to the end of the deq.
See also:
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) assert $a == "[10, 20, 30, 40, 50]"
Source Edit proc peekFirst[T](deq: Deque[T]): T {...}{.inline.}
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Returns the first element of deq, but does not remove it from the deque.
See also:
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) assert $a == "[10, 20, 30, 40, 50]" assert a.peekFirst == 10 assert len(a) == 5
Source Edit proc peekLast[T](deq: Deque[T]): T {...}{.inline.}
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Returns the last element of deq, but does not remove it from the deque.
See also:
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) assert $a == "[10, 20, 30, 40, 50]" assert a.peekLast == 50 assert len(a) == 5
Source Edit proc peekFirst[T](deq: var Deque[T]): var T {...}{.inline.}
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Returns the first element of deq, but does not remove it from the deque.
See also:
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) assert $a == "[10, 20, 30, 40, 50]" assert a.peekFirst == 10 assert len(a) == 5
Source Edit proc peekLast[T](deq: var Deque[T]): var T {...}{.inline.}
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Returns the last element of deq, but does not remove it from the deque.
See also:
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) assert $a == "[10, 20, 30, 40, 50]" assert a.peekLast == 50 assert len(a) == 5
Source Edit proc popFirst[T](deq: var Deque[T]): T {...}{.inline, discardable.}
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Remove and returns the first element of the deq.
See also:
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) assert $a == "[10, 20, 30, 40, 50]" assert a.popFirst == 10 assert $a == "[20, 30, 40, 50]"
Source Edit proc popLast[T](deq: var Deque[T]): T {...}{.inline, discardable.}
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Remove and returns the last element of the deq.
See also:
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(10*i) assert $a == "[10, 20, 30, 40, 50]" assert a.popLast == 50 assert $a == "[10, 20, 30, 40]"
Source Edit proc clear[T](deq: var Deque[T]) {...}{.inline.}
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Resets the deque so that it is empty.
See also:
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addFirst(10*i) assert $a == "[50, 40, 30, 20, 10]" clear(a) assert len(a) == 0
Source Edit proc shrink[T](deq: var Deque[T]; fromFirst = 0; fromLast = 0)
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Remove fromFirst elements from the front of the deque and fromLast elements from the back.
If the supplied number of elements exceeds the total number of elements in the deque, the deque will remain empty.
See also:
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addFirst(10*i) assert $a == "[50, 40, 30, 20, 10]" a.shrink(fromFirst = 2, fromLast = 1) assert $a == "[30, 20]"
Source Edit proc `$`[T](deq: Deque[T]): string
- Turn a deque into its string representation. Source Edit
Iterators
iterator items[T](deq: Deque[T]): T
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Yield every element of deq.
Examples:
var a = initDeque[int]() for i in 1 .. 3: a.addLast(10*i) for x in a: # the same as: for x in items(a): echo x # 10 # 20 # 30
Source Edit iterator mitems[T](deq: var Deque[T]): var T
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Yield every element of deq, which can be modified.
Example:
var a = initDeque[int]() for i in 1 .. 5: a.addLast(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 pairs[T](deq: Deque[T]): tuple[key: int, val: T]
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Yield every (position, value) of deq.
Examples:
var a = initDeque[int]() for i in 1 .. 3: a.addLast(10*i) for k, v in pairs(a): echo "key: ", k, ", value: ", v # key: 0, value: 10 # key: 1, value: 20 # key: 2, value: 30
Source Edit