public final class ByteKeyRange
extends java.lang.Object
implements java.io.Serializable
ByteKeys
.
Instances of ByteKeyRange
are immutable.
A ByteKeyRange
enforces the restriction that its start and end keys must form a valid,
non-empty range [startKey, endKey)
that is inclusive of the start key and exclusive of
the end key.
When the end key is empty, it is treated as the largest possible key.
ByteKey
in a ByteKeyRange
The primary role of ByteKeyRange
is to provide functionality for
estimateFractionForKey(ByteKey)
, interpolateKey(double)
, and
split(int)
.
ByteKeyRange
implements these features by treating a ByteKey
's underlying
byte[]
as the binary expansion of floating point numbers in the range [0.0, 1.0]
.
For example, the keys ByteKey.of(0x80)
, ByteKey.of(0xc0)
, and
ByteKey.of(0xe0)
are interpreted as 0.5
, 0.75
, and 0.875
respectively. The empty ByteKey.EMPTY
is interpreted as 0.0
when used as the
start of a range and 1.0
when used as the end key.
Key interpolation, fraction estimation, and range splitting are all interpreted in these
floating-point semantics. See the respective implementations for further details. Note:
the underlying implementations of these functions use BigInteger
and BigDecimal
,
so they can be slow and should not be called in hot loops. Dynamic work rebalancing will only
invoke these functions during periodic control operations, so they are not called on the critical
path.
ByteKey
,
Serialized FormModifier and Type | Field and Description |
---|---|
static ByteKeyRange |
ALL_KEYS
The range of all keys, with empty start and end keys.
|
Modifier and Type | Method and Description |
---|---|
java.lang.Boolean |
containsKey(ByteKey key)
Returns
true if the specified ByteKey is contained within this range. |
boolean |
equals(java.lang.Object o) |
double |
estimateFractionForKey(ByteKey key)
Returns the fraction of this range
[startKey, endKey) that is in the interval
[startKey, key) . |
ByteKey |
getEndKey()
Returns the
ByteKey representing the upper bound of this ByteKeyRange . |
ByteKey |
getStartKey()
Returns the
ByteKey representing the lower bound of this ByteKeyRange . |
int |
hashCode() |
ByteKey |
interpolateKey(double fraction)
Returns a
ByteKey key such that [startKey, key) represents
approximately the specified fraction of the range [startKey, endKey) . |
static ByteKeyRange |
of(ByteKey startKey,
ByteKey endKey)
Creates a new
ByteKeyRange with the given start and end keys. |
java.lang.Boolean |
overlaps(ByteKeyRange other)
Returns
true if the specified ByteKeyRange overlaps this range. |
java.util.List<ByteKey> |
split(int numSplits)
Returns a list of up to
numSplits + 1 ByteKeys in ascending order,
where the keys have been interpolated to form roughly equal sub-ranges of this
ByteKeyRange , assuming a uniform distribution of keys within this range. |
java.lang.String |
toString() |
ByteKeyRange |
withEndKey(ByteKey endKey)
Returns new
ByteKeyRange like this one, but with the specified end key. |
ByteKeyRange |
withStartKey(ByteKey startKey)
Returns new
ByteKeyRange like this one, but with the specified start key. |
public static final ByteKeyRange ALL_KEYS
public static ByteKeyRange of(ByteKey startKey, ByteKey endKey)
ByteKeyRange
with the given start and end keys.
Note that if endKey
is empty, it is treated as the largest possible key.
java.lang.IllegalArgumentException
- if endKey
is less than or equal to startKey
,
unless endKey
is empty indicating the maximum possible ByteKey
.ByteKeyRange
public ByteKey getStartKey()
ByteKey
representing the lower bound of this ByteKeyRange
.public ByteKey getEndKey()
ByteKey
representing the upper bound of this ByteKeyRange
.
Note that if endKey
is empty, it is treated as the largest possible key.
public java.lang.Boolean containsKey(ByteKey key)
true
if the specified ByteKey
is contained within this range.public java.lang.Boolean overlaps(ByteKeyRange other)
true
if the specified ByteKeyRange
overlaps this range.public java.util.List<ByteKey> split(int numSplits)
numSplits + 1
ByteKeys
in ascending order,
where the keys have been interpolated to form roughly equal sub-ranges of this
ByteKeyRange
, assuming a uniform distribution of keys within this range.
The first ByteKey
in the result is guaranteed to be equal to getStartKey()
,
and the last ByteKey
in the result is guaranteed to be equal to getEndKey()
.
Thus the resulting list exactly spans the same key range as this ByteKeyRange
.
Note that the number of keys returned is not always equal to numSplits + 1
.
Specifically, if this range is unsplittable (e.g., because the start and end keys are equal
up to padding by zero bytes), the list returned will only contain the start and end key.
java.lang.IllegalArgumentException
- if the specified number of splits is less than 1the ByteKeyRange class Javadoc for more information about split semantics.
public double estimateFractionForKey(ByteKey key)
[startKey, endKey)
that is in the interval
[startKey, key)
.java.lang.IllegalArgumentException
- if key
does not fall within this rangethe ByteKeyRange class Javadoc for more information about fraction semantics.
public ByteKey interpolateKey(double fraction)
ByteKey
key
such that [startKey, key)
represents
approximately the specified fraction of the range [startKey, endKey)
. The interpolation
is computed assuming a uniform distribution of keys.
For example, given the largest possible range (defined by empty start and end keys), the
fraction 0.5
will return the ByteKey.of(0x80)
, which will also be returned for
ranges [0x40, 0xc0)
and [0x6f, 0x91)
.
The key returned will never be empty.
java.lang.IllegalArgumentException
- if fraction
is outside the range [0, 1)java.lang.IllegalStateException
- if this range cannot be interpolatedthe ByteKeyRange class Javadoc for more information about fraction semantics.
public ByteKeyRange withStartKey(ByteKey startKey)
ByteKeyRange
like this one, but with the specified start key.public ByteKeyRange withEndKey(ByteKey endKey)
ByteKeyRange
like this one, but with the specified end key.public java.lang.String toString()
toString
in class java.lang.Object
public boolean equals(java.lang.Object o)
equals
in class java.lang.Object
public int hashCode()
hashCode
in class java.lang.Object