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- func incl*[T](x: var set[T], y: T) {.magic: "Incl".} =
- ## Includes element `y` in the set `x`.
- ##
- ## This is the same as `x = x + {y}`, but it might be more efficient.
- runnableExamples:
- var a = {1, 3, 5}
- a.incl(2)
- assert a == {1, 2, 3, 5}
- a.incl(4)
- assert a == {1, 2, 3, 4, 5}
- when not defined(nimHasCallsitePragma):
- {.pragma: callsite.}
- template incl*[T](x: var set[T], y: set[T]) {.callsite.} =
- ## Includes the set `y` in the set `x`.
- runnableExamples:
- var a = {1, 3, 5, 7}
- var b = {4, 5, 6}
- a.incl(b)
- assert a == {1, 3, 4, 5, 6, 7}
- x = x + y
- func excl*[T](x: var set[T], y: T) {.magic: "Excl".} =
- ## Excludes element `y` from the set `x`.
- ##
- ## This is the same as `x = x - {y}`, but it might be more efficient.
- runnableExamples:
- var b = {2, 3, 5, 6, 12, 545}
- b.excl(5)
- assert b == {2, 3, 6, 12, 545}
- template excl*[T](x: var set[T], y: set[T]) {.callsite.} =
- ## Excludes the set `y` from the set `x`.
- runnableExamples:
- var a = {1, 3, 5, 7}
- var b = {3, 4, 5}
- a.excl(b)
- assert a == {1, 7}
- x = x - y
- func card*[T](x: set[T]): int {.magic: "Card".} =
- ## Returns the cardinality of the set `x`, i.e. the number of elements
- ## in the set.
- runnableExamples:
- var a = {1, 3, 5, 7}
- assert card(a) == 4
- var b = {1, 3, 5, 7, 5}
- assert card(b) == 4 # repeated 5 doesn't count
- func len*[T](x: set[T]): int {.magic: "Card".}
- ## An alias for `card(x)`.
- func `*`*[T](x, y: set[T]): set[T] {.magic: "MulSet".} =
- ## This operator computes the intersection of two sets.
- runnableExamples:
- assert {1, 2, 3} * {2, 3, 4} == {2, 3}
- func `+`*[T](x, y: set[T]): set[T] {.magic: "PlusSet".} =
- ## This operator computes the union of two sets.
- runnableExamples:
- assert {1, 2, 3} + {2, 3, 4} == {1, 2, 3, 4}
- func `-`*[T](x, y: set[T]): set[T] {.magic: "MinusSet".} =
- ## This operator computes the difference of two sets.
- runnableExamples:
- assert {1, 2, 3} - {2, 3, 4} == {1}
- func contains*[T](x: set[T], y: T): bool {.magic: "InSet".} =
- ## One should overload this proc if one wants to overload the `in` operator.
- ##
- ## The parameters are in reverse order! `a in b` is a template for
- ## `contains(b, a)`.
- ## This is because the unification algorithm that Nim uses for overload
- ## resolution works from left to right.
- ## But for the `in` operator that would be the wrong direction for this
- ## piece of code:
- runnableExamples:
- var s: set[range['a'..'z']] = {'a'..'c'}
- assert s.contains('c')
- assert 'b' in s
- assert 'd' notin s
- assert set['a'..'z'] is set[range['a'..'z']]
- ## If `in` had been declared as `[T](elem: T, s: set[T])` then `T` would
- ## have been bound to `char`. But `s` is not compatible to type
- ## `set[char]`! The solution is to bind `T` to `range['a'..'z']`. This
- ## is achieved by reversing the parameters for `contains`; `in` then
- ## passes its arguments in reverse order.
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