K
- the type of the keys in this mapV
- the type of the values in this mappublic class AbstractHashedMap<K,V> extends AbstractMap<K,V> implements IterableMap<K,V>
This class implements all the features necessary for a subclass hash-based map.
Key-value entries are stored in instances of the HashEntry
class,
which can be overridden and replaced. The iterators can similarly be replaced,
without the need to replace the KeySet, EntrySet and Values view classes.
Overridable methods are provided to change the default hashing behaviour, and to change how entries are added to and removed from the map. Hopefully, all you need for unusual subclasses is here.
NOTE: From Commons Collections 3.1 this class extends AbstractMap. This is to provide backwards compatibility for ReferenceMap between v3.0 and v3.1. This extends clause will be removed in v5.0.
Modifier and Type | Class and Description |
---|---|
protected static class |
AbstractHashedMap.EntrySet<K,V>
EntrySet implementation.
|
protected static class |
AbstractHashedMap.EntrySetIterator<K,V>
EntrySet iterator.
|
protected static class |
AbstractHashedMap.HashEntry<K,V>
HashEntry used to store the data.
|
protected static class |
AbstractHashedMap.HashIterator<K,V>
Base Iterator
|
protected static class |
AbstractHashedMap.HashMapIterator<K,V>
MapIterator implementation.
|
protected static class |
AbstractHashedMap.KeySet<K>
KeySet implementation.
|
protected static class |
AbstractHashedMap.KeySetIterator<K>
KeySet iterator.
|
protected static class |
AbstractHashedMap.Values<V>
Values implementation.
|
protected static class |
AbstractHashedMap.ValuesIterator<V>
Values iterator.
|
AbstractMap.SimpleEntry<K,V>, AbstractMap.SimpleImmutableEntry<K,V>
Modifier and Type | Field and Description |
---|---|
protected static int |
DEFAULT_CAPACITY
The default capacity to use
|
protected static float |
DEFAULT_LOAD_FACTOR
The default load factor to use
|
protected static int |
DEFAULT_THRESHOLD
The default threshold to use
|
protected static String |
GETKEY_INVALID |
protected static String |
GETVALUE_INVALID |
protected static int |
MAXIMUM_CAPACITY
The maximum capacity allowed
|
protected static String |
NO_NEXT_ENTRY |
protected static String |
NO_PREVIOUS_ENTRY |
protected static Object |
NULL
An object for masking null
|
protected static String |
REMOVE_INVALID |
protected static String |
SETVALUE_INVALID |
Modifier | Constructor and Description |
---|---|
protected |
AbstractHashedMap()
Constructor only used in deserialization, do not use otherwise.
|
protected |
AbstractHashedMap(int initialCapacity)
Constructs a new, empty map with the specified initial capacity and
default load factor.
|
protected |
AbstractHashedMap(int initialCapacity,
float loadFactor)
Constructs a new, empty map with the specified initial capacity and
load factor.
|
protected |
AbstractHashedMap(int initialCapacity,
float loadFactor,
int threshold)
Constructor which performs no validation on the passed in parameters.
|
protected |
AbstractHashedMap(Map<? extends K,? extends V> map)
Constructor copying elements from another map.
|
Modifier and Type | Method and Description |
---|---|
protected void |
addEntry(AbstractHashedMap.HashEntry<K,V> entry,
int hashIndex)
Adds an entry into this map.
|
protected void |
addMapping(int hashIndex,
int hashCode,
K key,
V value)
Adds a new key-value mapping into this map.
|
protected int |
calculateNewCapacity(int proposedCapacity)
Calculates the new capacity of the map.
|
protected int |
calculateThreshold(int newCapacity,
float factor)
Calculates the new threshold of the map, where it will be resized.
|
protected void |
checkCapacity()
Checks the capacity of the map and enlarges it if necessary.
|
void |
clear()
Clears the map, resetting the size to zero and nullifying references
to avoid garbage collection issues.
|
protected AbstractHashedMap<K,V> |
clone()
Clones the map without cloning the keys or values.
|
boolean |
containsKey(Object key)
Checks whether the map contains the specified key.
|
boolean |
containsValue(Object value)
Checks whether the map contains the specified value.
|
protected Object |
convertKey(Object key)
Converts input keys to another object for storage in the map.
|
protected AbstractHashedMap.HashEntry<K,V> |
createEntry(AbstractHashedMap.HashEntry<K,V> next,
int hashCode,
K key,
V value)
Creates an entry to store the key-value data.
|
protected Iterator<Map.Entry<K,V>> |
createEntrySetIterator()
Creates an entry set iterator.
|
protected Iterator<K> |
createKeySetIterator()
Creates a key set iterator.
|
protected Iterator<V> |
createValuesIterator()
Creates a values iterator.
|
protected void |
destroyEntry(AbstractHashedMap.HashEntry<K,V> entry)
Kills an entry ready for the garbage collector.
|
protected void |
doReadObject(ObjectInputStream in)
Reads the map data from the stream.
|
protected void |
doWriteObject(ObjectOutputStream out)
Writes the map data to the stream.
|
protected void |
ensureCapacity(int newCapacity)
Changes the size of the data structure to the capacity proposed.
|
protected int |
entryHashCode(AbstractHashedMap.HashEntry<K,V> entry)
Gets the
hashCode field from a HashEntry . |
protected K |
entryKey(AbstractHashedMap.HashEntry<K,V> entry)
Gets the
key field from a HashEntry . |
protected AbstractHashedMap.HashEntry<K,V> |
entryNext(AbstractHashedMap.HashEntry<K,V> entry)
Gets the
next field from a HashEntry . |
Set<Map.Entry<K,V>> |
entrySet()
Gets the entrySet view of the map.
|
protected V |
entryValue(AbstractHashedMap.HashEntry<K,V> entry)
Gets the
value field from a HashEntry . |
boolean |
equals(Object obj)
Compares this map with another.
|
V |
get(Object key)
Gets the value mapped to the key specified.
|
protected AbstractHashedMap.HashEntry<K,V> |
getEntry(Object key)
Gets the entry mapped to the key specified.
|
protected int |
hash(Object key)
Gets the hash code for the key specified.
|
int |
hashCode()
Gets the standard Map hashCode.
|
protected int |
hashIndex(int hashCode,
int dataSize)
Gets the index into the data storage for the hashCode specified.
|
protected void |
init()
Initialise subclasses during construction, cloning or deserialization.
|
boolean |
isEmpty()
Checks whether the map is currently empty.
|
protected boolean |
isEqualKey(Object key1,
Object key2)
Compares two keys, in internal converted form, to see if they are equal.
|
protected boolean |
isEqualValue(Object value1,
Object value2)
Compares two values, in external form, to see if they are equal.
|
Set<K> |
keySet()
Gets the keySet view of the map.
|
MapIterator<K,V> |
mapIterator()
Gets an iterator over the map.
|
V |
put(K key,
V value)
Puts a key-value mapping into this map.
|
void |
putAll(Map<? extends K,? extends V> map)
Puts all the values from the specified map into this map.
|
V |
remove(Object key)
Removes the specified mapping from this map.
|
protected void |
removeEntry(AbstractHashedMap.HashEntry<K,V> entry,
int hashIndex,
AbstractHashedMap.HashEntry<K,V> previous)
Removes an entry from the chain stored in a particular index.
|
protected void |
removeMapping(AbstractHashedMap.HashEntry<K,V> entry,
int hashIndex,
AbstractHashedMap.HashEntry<K,V> previous)
Removes a mapping from the map.
|
protected void |
reuseEntry(AbstractHashedMap.HashEntry<K,V> entry,
int hashIndex,
int hashCode,
K key,
V value)
Reuses an existing key-value mapping, storing completely new data.
|
int |
size()
Gets the size of the map.
|
String |
toString()
Gets the map as a String.
|
protected void |
updateEntry(AbstractHashedMap.HashEntry<K,V> entry,
V newValue)
Updates an existing key-value mapping to change the value.
|
Collection<V> |
values()
Gets the values view of the map.
|
finalize, getClass, notify, notifyAll, wait, wait, wait
compute, computeIfAbsent, computeIfPresent, forEach, getOrDefault, merge, putIfAbsent, remove, replace, replace, replaceAll
protected static final String NO_NEXT_ENTRY
protected static final String NO_PREVIOUS_ENTRY
protected static final String REMOVE_INVALID
protected static final String GETKEY_INVALID
protected static final String GETVALUE_INVALID
protected static final String SETVALUE_INVALID
protected static final int DEFAULT_CAPACITY
protected static final int DEFAULT_THRESHOLD
protected static final float DEFAULT_LOAD_FACTOR
protected static final int MAXIMUM_CAPACITY
protected AbstractHashedMap()
protected AbstractHashedMap(int initialCapacity, float loadFactor, int threshold)
initialCapacity
- the initial capacity, must be a power of twoloadFactor
- the load factor, must be > 0.0f and generally < 1.0fthreshold
- the threshold, must be sensibleprotected AbstractHashedMap(int initialCapacity)
initialCapacity
- the initial capacityIllegalArgumentException
- if the initial capacity is negativeprotected AbstractHashedMap(int initialCapacity, float loadFactor)
initialCapacity
- the initial capacityloadFactor
- the load factorIllegalArgumentException
- if the initial capacity is negativeIllegalArgumentException
- if the load factor is less than or equal to zeroprotected AbstractHashedMap(Map<? extends K,? extends V> map)
map
- the map to copyNullPointerException
- if the map is nullprotected void init()
public int size()
public boolean isEmpty()
public boolean containsKey(Object key)
containsKey
in interface Map<K,V>
containsKey
in interface Get<K,V>
containsKey
in class AbstractMap<K,V>
key
- the key to search forMap.containsKey(Object)
public boolean containsValue(Object value)
containsValue
in interface Map<K,V>
containsValue
in interface Get<K,V>
containsValue
in class AbstractMap<K,V>
value
- the value to search forMap.containsValue(Object)
public void putAll(Map<? extends K,? extends V> map)
This implementation iterates around the specified map and
uses put(Object, Object)
.
putAll
in interface Map<K,V>
putAll
in interface Put<K,V>
putAll
in class AbstractMap<K,V>
map
- the map to addNullPointerException
- if the map is nullMap.putAll(Map)
public void clear()
protected Object convertKey(Object key)
The reverse conversion can be changed, if required, by overriding the getKey() method in the hash entry.
key
- the key convertprotected int hash(Object key)
key
- the key to get a hash code forprotected boolean isEqualKey(Object key1, Object key2)
key1
- the first key to compare passed in from outsidekey2
- the second key extracted from the entry via entry.key
protected boolean isEqualValue(Object value1, Object value2)
value1
- the first value to compare passed in from outsidevalue2
- the second value extracted from the entry via getValue()
protected int hashIndex(int hashCode, int dataSize)
hashCode
- the hash code to usedataSize
- the size of the data to pick a bucket fromprotected AbstractHashedMap.HashEntry<K,V> getEntry(Object key)
This method exists for subclasses that may need to perform a multi-step process accessing the entry. The public methods in this class don't use this method to gain a small performance boost.
key
- the keyprotected void updateEntry(AbstractHashedMap.HashEntry<K,V> entry, V newValue)
This implementation calls setValue()
on the entry.
Subclasses could override to handle changes to the map.
entry
- the entry to updatenewValue
- the new value to storeprotected void reuseEntry(AbstractHashedMap.HashEntry<K,V> entry, int hashIndex, int hashCode, K key, V value)
This implementation sets all the data fields on the entry. Subclasses could populate additional entry fields.
entry
- the entry to update, not nullhashIndex
- the index in the data arrayhashCode
- the hash code of the key to addkey
- the key to addvalue
- the value to addprotected void addMapping(int hashIndex, int hashCode, K key, V value)
This implementation calls createEntry()
, addEntry()
and checkCapacity()
.
It also handles changes to modCount
and size
.
Subclasses could override to fully control adds to the map.
hashIndex
- the index into the data array to store athashCode
- the hash code of the key to addkey
- the key to addvalue
- the value to addprotected AbstractHashedMap.HashEntry<K,V> createEntry(AbstractHashedMap.HashEntry<K,V> next, int hashCode, K key, V value)
This implementation creates a new HashEntry instance. Subclasses can override this to return a different storage class, or implement caching.
next
- the next entry in sequencehashCode
- the hash code to usekey
- the key to storevalue
- the value to storeprotected void addEntry(AbstractHashedMap.HashEntry<K,V> entry, int hashIndex)
This implementation adds the entry to the data storage table. Subclasses could override to handle changes to the map.
entry
- the entry to addhashIndex
- the index into the data array to store atprotected void removeMapping(AbstractHashedMap.HashEntry<K,V> entry, int hashIndex, AbstractHashedMap.HashEntry<K,V> previous)
This implementation calls removeEntry()
and destroyEntry()
.
It also handles changes to modCount
and size
.
Subclasses could override to fully control removals from the map.
entry
- the entry to removehashIndex
- the index into the data structureprevious
- the previous entry in the chainprotected void removeEntry(AbstractHashedMap.HashEntry<K,V> entry, int hashIndex, AbstractHashedMap.HashEntry<K,V> previous)
This implementation removes the entry from the data storage table. The size is not updated. Subclasses could override to handle changes to the map.
entry
- the entry to removehashIndex
- the index into the data structureprevious
- the previous entry in the chainprotected void destroyEntry(AbstractHashedMap.HashEntry<K,V> entry)
This implementation prepares the HashEntry for garbage collection. Subclasses can override this to implement caching (override clear as well).
entry
- the entry to destroyprotected void checkCapacity()
This implementation uses the threshold to check if the map needs enlarging
protected void ensureCapacity(int newCapacity)
newCapacity
- the new capacity of the array (a power of two, less or equal to max)protected int calculateNewCapacity(int proposedCapacity)
proposedCapacity
- the proposed capacityprotected int calculateThreshold(int newCapacity, float factor)
newCapacity
- the new capacityfactor
- the load factorprotected AbstractHashedMap.HashEntry<K,V> entryNext(AbstractHashedMap.HashEntry<K,V> entry)
next
field from a HashEntry
.
Used in subclasses that have no visibility of the field.entry
- the entry to query, must not be nullnext
field of the entryNullPointerException
- if the entry is nullprotected int entryHashCode(AbstractHashedMap.HashEntry<K,V> entry)
hashCode
field from a HashEntry
.
Used in subclasses that have no visibility of the field.entry
- the entry to query, must not be nullhashCode
field of the entryNullPointerException
- if the entry is nullprotected K entryKey(AbstractHashedMap.HashEntry<K,V> entry)
key
field from a HashEntry
.
Used in subclasses that have no visibility of the field.entry
- the entry to query, must not be nullkey
field of the entryNullPointerException
- if the entry is nullprotected V entryValue(AbstractHashedMap.HashEntry<K,V> entry)
value
field from a HashEntry
.
Used in subclasses that have no visibility of the field.entry
- the entry to query, must not be nullvalue
field of the entryNullPointerException
- if the entry is nullpublic MapIterator<K,V> mapIterator()
A MapIterator returns the keys in the map. It also provides convenient methods to get the key and value, and set the value. It avoids the need to create an entrySet/keySet/values object. It also avoids creating the Map.Entry object.
mapIterator
in interface IterableGet<K,V>
public Set<Map.Entry<K,V>> entrySet()
mapIterator()
.protected Iterator<Map.Entry<K,V>> createEntrySetIterator()
public Set<K> keySet()
mapIterator()
.protected Iterator<K> createKeySetIterator()
public Collection<V> values()
mapIterator()
.protected Iterator<V> createValuesIterator()
protected void doWriteObject(ObjectOutputStream out) throws IOException
put()
is used.
Serialization is not one of the JDK's nicest topics. Normal serialization will
initialise the superclass before the subclass. Sometimes however, this isn't
what you want, as in this case the put()
method on read can be
affected by subclass state.
The solution adopted here is to serialize the state data of this class in
this protected method. This method must be called by the
writeObject()
of the first serializable subclass.
Subclasses may override if they have a specific field that must be present on read before this implementation will work. Generally, the read determines what must be serialized here, if anything.
out
- the output streamIOException
- if an error occurs while writing tothe streamprotected void doReadObject(ObjectInputStream in) throws IOException, ClassNotFoundException
put()
is used.
Serialization is not one of the JDK's nicest topics. Normal serialization will
initialise the superclass before the subclass. Sometimes however, this isn't
what you want, as in this case the put()
method on read can be
affected by subclass state.
The solution adopted here is to deserialize the state data of this class in
this protected method. This method must be called by the
readObject()
of the first serializable subclass.
Subclasses may override if the subclass has a specific field that must be present
before put()
or calculateThreshold()
will work correctly.
in
- the input streamIOException
- if an error occurs while reading from the streamClassNotFoundException
- if an object read from the stream can not be loadedprotected AbstractHashedMap<K,V> clone()
To implement clone()
, a subclass must implement the
Cloneable
interface and make this method public.
clone
in class AbstractMap<K,V>
InternalError
- if AbstractMap.clone()
failedpublic int hashCode()
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