Method Detail

• open

  public static <C extends Comparable<?>> Range<C> open(C lower,
                                        C upper)

  Returns a range that contains all values strictly greater than lower and strictly less than upper.

  Throws:

  IllegalArgumentException - if lower is greater than or equal to upper

  Since:

  14.0

• closed

  public static <C extends Comparable<?>> Range<C> closed(C lower,
                                          C upper)

  Returns a range that contains all values greater than or equal to lower and less than or equal to upper.

  Throws:

  IllegalArgumentException - if lower is greater than upper

  Since:

  14.0

• closedOpen

  public static <C extends Comparable<?>> Range<C> closedOpen(C lower,
                                              C upper)

  Returns a range that contains all values greater than or equal to lower and strictly less than upper.

  Throws:

  IllegalArgumentException - if lower is greater than upper

  Since:

  14.0

• openClosed

  public static <C extends Comparable<?>> Range<C> openClosed(C lower,
                                              C upper)

  Returns a range that contains all values strictly greater than lower and less than or equal to upper.

  Throws:

  IllegalArgumentException - if lower is greater than upper

  Since:

  14.0

• range

  public static <C extends Comparable<?>> Range<C> range(C lower,
                                         BoundType lowerType,
                                         C upper,
                                         BoundType upperType)

  Returns a range that contains any value from lower to upper, where each endpoint may be either inclusive (closed) or exclusive (open).

  Throws:

  IllegalArgumentException - if lower is greater than upper

  Since:

  14.0

• lessThan

  public static <C extends Comparable<?>> Range<C> lessThan(C endpoint)

  Returns a range that contains all values strictly less than endpoint.

  Since:

  14.0

• atMost

  public static <C extends Comparable<?>> Range<C> atMost(C endpoint)

  Returns a range that contains all values less than or equal to endpoint.

  Since:

  14.0

• upTo

  public static <C extends Comparable<?>> Range<C> upTo(C endpoint,
                                        BoundType boundType)

  Returns a range with no lower bound up to the given endpoint, which may be either inclusive (closed) or exclusive (open).

  Since:

  14.0

• greaterThan

  public static <C extends Comparable<?>> Range<C> greaterThan(C endpoint)

  Returns a range that contains all values strictly greater than endpoint.

  Since:

  14.0

• atLeast

  public static <C extends Comparable<?>> Range<C> atLeast(C endpoint)

  Returns a range that contains all values greater than or equal to endpoint.

  Since:

  14.0

• downTo

  public static <C extends Comparable<?>> Range<C> downTo(C endpoint,
                                          BoundType boundType)

  Returns a range from the given endpoint, which may be either inclusive (closed) or exclusive (open), with no upper bound.

  Since:

  14.0

• all

  public static <C extends Comparable<?>> Range<C> all()

  Returns a range that contains every value of type C.

  Since:

  14.0

• singleton

  public static <C extends Comparable<?>> Range<C> singleton(C value)

  Returns a range that contains only the given value. The returned range is closed on both ends.

  Since:

  14.0

• encloseAll

  public static <C extends Comparable<?>> Range<C> encloseAll(Iterable<C> values)

  Returns the minimal range that contains all of the given values. The returned range is closed on both ends.

  Throws:

  ClassCastException - if the parameters are not mutually comparable

  NoSuchElementException - if values is empty

  NullPointerException - if any of values is null

  Since:

  14.0

• hasLowerBound

  public boolean hasLowerBound()

  Returns true if this range has a lower endpoint.

• lowerEndpoint

  public C lowerEndpoint()

  Returns the lower endpoint of this range.

  Throws:

  IllegalStateException - if this range is unbounded below (that is, hasLowerBound() returns false)

• lowerBoundType

  public BoundType lowerBoundType()

  Returns the type of this range's lower bound: BoundType.CLOSED if the range includes its lower endpoint, BoundType.OPEN if it does not.

  Throws:

  IllegalStateException - if this range is unbounded below (that is, hasLowerBound() returns false)

• hasUpperBound

  public boolean hasUpperBound()

  Returns true if this range has an upper endpoint.

• upperEndpoint

  public C upperEndpoint()

  Returns the upper endpoint of this range.

  Throws:

  IllegalStateException - if this range is unbounded above (that is, hasUpperBound() returns false)

• upperBoundType

  public BoundType upperBoundType()

  Returns the type of this range's upper bound: BoundType.CLOSED if the range includes its upper endpoint, BoundType.OPEN if it does not.

  Throws:

  IllegalStateException - if this range is unbounded above (that is, hasUpperBound() returns false)

• isEmpty

  public boolean isEmpty()

  Returns true if this range is of the form [v..v) or (v..v]. (This does not encompass ranges of the form (v..v), because such ranges are invalid and can't be constructed at all.)

  Note that certain discrete ranges such as the integer range (3..4) are not considered empty, even though they contain no actual values. In these cases, it may be helpful to preprocess ranges with canonical(DiscreteDomain).

• contains

  public boolean contains(C value)

  Returns true if value is within the bounds of this range. For example, on the range [0..2), contains(1) returns true, while contains(2) returns false.

• apply

  @Deprecated
  public boolean apply(C input)

  Deprecated. Provided only to satisfy the Predicate interface; use contains(C) instead.
  Description copied from interface: Predicate
  Returns the result of applying this predicate to input. This method is generally expected, but not absolutely required, to have the following properties:

  • Its execution does not cause any observable side effects.
  • The computation is consistent with equals; that is, Objects.equal(a, b) implies that predicate.apply(a) == predicate.apply(b)).

  Specified by:

  apply in interface Predicate<C extends Comparable>

• containsAll

  public boolean containsAll(Iterable<? extends C> values)

  Returns true if every element in values is contained in this range.

• encloses

  public boolean encloses(Range<C> other)

  Returns true if the bounds of other do not extend outside the bounds of this range. Examples:

  • [3..6] encloses [4..5]
  • (3..6) encloses (3..6)
  • [3..6] encloses [4..4) (even though the latter is empty)
  • (3..6] does not enclose [3..6]
  • [4..5] does not enclose (3..6) (even though it contains every value contained by the latter range)
  • [3..6] does not enclose (1..1] (even though it contains every value contained by the latter range)

  Note that if a.encloses(b), then b.contains(v) implies a.contains(v), but as the last two examples illustrate, the converse is not always true.

  Being reflexive, antisymmetric and transitive, the encloses relation defines a partial order over ranges. There exists a unique maximal range according to this relation, and also numerous minimal ranges. Enclosure also implies connectedness.

• isConnected

  public boolean isConnected(Range<C> other)

  Returns true if there exists a (possibly empty) range which is enclosed by both this range and other.

  For example,

  • [2, 4) and [5, 7) are not connected
  • [2, 4) and [3, 5) are connected, because both enclose [3, 4)
  • [2, 4) and [4, 6) are connected, because both enclose the empty range [4, 4)

  Note that this range and other have a well-defined union and intersection (as a single, possibly-empty range) if and only if this method returns true.

  The connectedness relation is both reflexive and symmetric, but does not form an equivalence relation as it is not transitive.

  Note that certain discrete ranges are not considered connected, even though there are no elements "between them." For example, [3, 5] is not considered connected to [6, 10]. In these cases, it may be desirable for both input ranges to be preprocessed with canonical(DiscreteDomain) before testing for connectedness.

• intersection

  public Range<C> intersection(Range<C> connectedRange)

  Returns the maximal range enclosed by both this range and connectedRange, if such a range exists.

  For example, the intersection of [1..5] and (3..7) is (3..5]. The resulting range may be empty; for example, [1..5) intersected with [5..7) yields the empty range [5..5).

  The intersection exists if and only if the two ranges are connected.

  The intersection operation is commutative, associative and idempotent, and its identity element is all()).

  Throws:

  IllegalArgumentException - if isConnected(connectedRange) is false

• span

  public Range<C> span(Range<C> other)

  Returns the minimal range that encloses both this range and other. For example, the span of [1..3] and (5..7) is [1..7).

  If the input ranges are connected, the returned range can also be called their union. If they are not, note that the span might contain values that are not contained in either input range.

  Like intersection, this operation is commutative, associative and idempotent. Unlike it, it is always well-defined for any two input ranges.

• canonical

  public Range<C> canonical(DiscreteDomain<C> domain)

  Returns the canonical form of this range in the given domain. The canonical form has the following properties:

  • equivalence: a.canonical().contains(v) == a.contains(v) for all v (in other words, ContiguousSet.create(a.canonical(domain), domain).equals( ContiguousSet.create(a, domain))
  • uniqueness: unless a.isEmpty(), ContiguousSet.create(a, domain).equals(ContiguousSet.create(b, domain)) implies a.canonical(domain).equals(b.canonical(domain))
  • idempotence: a.canonical(domain).canonical(domain).equals(a.canonical(domain))

  Furthermore, this method guarantees that the range returned will be one of the following canonical forms:

  • [start..end)
  • [start..+∞)
  • (-∞..end) (only if type C is unbounded below)
  • (-∞..+∞) (only if type C is unbounded below)

• equals

  public boolean equals(@Nullable
               Object object)

  Returns true if object is a range having the same endpoints and bound types as this range. Note that discrete ranges such as (1..4) and [2..3] are not equal to one another, despite the fact that they each contain precisely the same set of values. Similarly, empty ranges are not equal unless they have exactly the same representation, so [3..3), (3..3], (4..4] are all unequal.

  Specified by:

  equals in interface Predicate<C extends Comparable>

  Overrides:

  equals in class Object

• hashCode

  public int hashCode()

  Returns a hash code for this range.

  Overrides:

  hashCode in class Object

• toString

  public String toString()

  Returns a string representation of this range, such as "[3..5)" (other examples are listed in the class documentation).

  Overrides:

  toString in class Object