speiger.src.collections.floats.maps.impl.concurrent

Class Float2FloatConcurrentOpenHashMap

java.lang.Object

java.util.AbstractMap<java.lang.Float,java.lang.Float>

speiger.src.collections.floats.maps.abstracts.AbstractFloat2FloatMap

speiger.src.collections.floats.maps.impl.concurrent.Float2FloatConcurrentOpenHashMap

All Implemented Interfaces:

java.util.concurrent.ConcurrentMap<java.lang.Float,java.lang.Float>, java.util.Map<java.lang.Float,java.lang.Float>, FloatUnaryOperator, Float2FloatConcurrentMap, Float2FloatMap, ITrimmable

public class Float2FloatConcurrentOpenHashMap
extends AbstractFloat2FloatMap
implements Float2FloatConcurrentMap, ITrimmable

A TypeSpecific ConcurrentHashMap implementation that is based on Guavas approach and backing array implementations. Like Guavas implementation this solution can be accessed by multiple threads, but it is not as flexible as Javas implementation. The concurrencyLevel decides how many pools exist, and each pool can be accessed by 1 thread for writing and as many threads for reading. Though it is ill adviced to iterate over the collection using the Iterator if the Map is written to. Keep that in mind.

Nested Class Summary

Nested classes/interfaces inherited from class speiger.src.collections.floats.maps.abstracts.AbstractFloat2FloatMap

AbstractFloat2FloatMap.BasicEntry

Nested classes/interfaces inherited from class java.util.AbstractMap

java.util.AbstractMap.SimpleEntry<K,V>, java.util.AbstractMap.SimpleImmutableEntry<K,V>

Nested classes/interfaces inherited from interface speiger.src.collections.floats.maps.interfaces.Float2FloatMap

Float2FloatMap.BuilderCache, Float2FloatMap.Entry, Float2FloatMap.FastEntrySet, Float2FloatMap.MapBuilder

Constructor Summary

Constructors

Constructor and Description
Float2FloatConcurrentOpenHashMap() Default Constructor
Float2FloatConcurrentOpenHashMap(float[] keys, float[] values) Helper constructor that allow to create a map from unboxed values
Float2FloatConcurrentOpenHashMap(java.lang.Float[] keys, java.lang.Float[] values) Helper constructor that allow to create a map from boxed values (it will unbox them)
Float2FloatConcurrentOpenHashMap(float[] keys, float[] values, float loadFactor) Helper constructor that allow to create a map from unboxed values
Float2FloatConcurrentOpenHashMap(java.lang.Float[] keys, java.lang.Float[] values, float loadFactor) Helper constructor that allow to create a map from boxed values (it will unbox them)
Float2FloatConcurrentOpenHashMap(float[] keys, float[] values, float loadFactor, int concurrencyLevel) Helper constructor that allow to create a map from unboxed values
Float2FloatConcurrentOpenHashMap(java.lang.Float[] keys, java.lang.Float[] values, float loadFactor, int concurrencyLevel) Helper constructor that allow to create a map from boxed values (it will unbox them)
Float2FloatConcurrentOpenHashMap(float[] keys, float[] values, int concurrencyLevel) Helper constructor that allow to create a map from unboxed values
Float2FloatConcurrentOpenHashMap(java.lang.Float[] keys, java.lang.Float[] values, int concurrencyLevel) Helper constructor that allow to create a map from boxed values (it will unbox them)
Float2FloatConcurrentOpenHashMap(Float2FloatMap map) A Type Specific Helper function that allows to create a new Map with exactly the same values as the provided map.
Float2FloatConcurrentOpenHashMap(Float2FloatMap map, float loadFactor) A Type Specific Helper function that allows to create a new Map with exactly the same values as the provided map.
Float2FloatConcurrentOpenHashMap(Float2FloatMap map, float loadFactor, int concurrencyLevel) A Type Specific Helper function that allows to create a new Map with exactly the same values as the provided map.
Float2FloatConcurrentOpenHashMap(Float2FloatMap map, int concurrencyLevel) A Type Specific Helper function that allows to create a new Map with exactly the same values as the provided map.
Float2FloatConcurrentOpenHashMap(float loadFactor, int concurrencyLevel) Constructor that defines the load factor and concurrencyLevel
Float2FloatConcurrentOpenHashMap(int minCapacity) Constructor that defines the minimum capacity
Float2FloatConcurrentOpenHashMap(int minCapacity, float loadFactor) Constructor that defines the minimum capacity and load factor
Float2FloatConcurrentOpenHashMap(int minCapacity, float loadFactor, int concurrencyLevel) Constructor that defines the minimum capacity, load factor and concurrencyLevel
Float2FloatConcurrentOpenHashMap(int minCapacity, int concurrencyLevel) Constructor that defines the minimum capacity and concurrencyLevel
Float2FloatConcurrentOpenHashMap(java.util.Map<? extends java.lang.Float,? extends java.lang.Float> map) A Helper constructor that allows to create a Map with exactly the same values as the provided map.
Float2FloatConcurrentOpenHashMap(java.util.Map<? extends java.lang.Float,? extends java.lang.Float> map, float loadFactor) A Helper constructor that allows to create a Map with exactly the same values as the provided map.
Float2FloatConcurrentOpenHashMap(java.util.Map<? extends java.lang.Float,? extends java.lang.Float> map, float loadFactor, int concurrencyLevel) A Helper constructor that allows to create a Map with exactly the same values as the provided map.
Float2FloatConcurrentOpenHashMap(java.util.Map<? extends java.lang.Float,? extends java.lang.Float> map, int concurrencyLevel) A Helper constructor that allows to create a Map with exactly the same values as the provided map.

Method Summary

Modifier and Type	Method and Description
float	addTo(float key, float value) A Helper method to add a primitives together.
void	clear()
void	clearAndTrim(int size) Trims the collection down to the requested size and clears all elements while doing so
float	computeFloat(float key, FloatFloatUnaryOperator mappingFunction) A Type Specific compute method to reduce boxing/unboxing
float	computeFloatIfAbsent(float key, FloatUnaryOperator mappingFunction) A Type Specific compute method to reduce boxing/unboxing
float	computeFloatIfPresent(float key, FloatFloatUnaryOperator mappingFunction) A Type Specific compute method to reduce boxing/unboxing
boolean	containsKey(float key) Type Specific method to reduce boxing/unboxing of values
boolean	containsValue(float value) Type Specific method to reduce boxing/unboxing of values
Float2FloatConcurrentOpenHashMap	copy() A Function that does a shallow clone of the Map itself.
ObjectSet<Float2FloatMap.Entry>	float2FloatEntrySet() Type Sensitive EntrySet to reduce boxing/unboxing and optionally Temp Object Allocation.
void	forEach(FloatFloatConsumer action) Type Specific forEach method to reduce boxing/unboxing
float	get(float key) A Type Specific get method to reduce boxing/unboxing
java.lang.Float	get(java.lang.Object key)
float	getOrDefault(float key, float defaultValue) A Type Specific getOrDefault method to reduce boxing/unboxing
boolean	isEmpty()
FloatSet	keySet()
float	mergeFloat(float key, float value, FloatFloatUnaryOperator mappingFunction) A Type Specific merge method to reduce boxing/unboxing
float	put(float key, float value) Type Specific method to reduce boxing/unboxing of values
float	putIfAbsent(float key, float value) Type Specific method to reduce boxing/unboxing of values
float	remove(float key) Type Specific remove function to reduce boxing/unboxing
boolean	remove(float key, float value) Type Specific remove function to reduce boxing/unboxing
boolean	remove(java.lang.Object key, java.lang.Object value)
float	removeOrDefault(float key, float defaultValue) Type-Specific Remove function with a default return value if wanted.
float	replace(float key, float value) A Type Specific replace method to reduce boxing/unboxing replace an existing value
boolean	replace(float key, float oldValue, float newValue) A Type Specific replace method to replace an existing value
int	size()
float	subFrom(float key, float value) A Helper method to subtract from primitive from each other.
float	supplyFloatIfAbsent(float key, FloatSupplier valueProvider) A Supplier based computeIfAbsent function to fill the most used usecase of this function
boolean	trim(int size) Trims the original collection down to the size of the current elements or the requested size depending which is bigger
FloatCollection	values()

Methods inherited from class speiger.src.collections.floats.maps.abstracts.AbstractFloat2FloatMap

addToAll, entrySet, equals, getDefaultReturnValue, getOrDefault, hashCode, mergeAllFloat, put, putAll, putAll, putAll, putAll, putAllIfAbsent, remove, replaceFloats, replaceFloats, setDefaultReturnValue

Methods inherited from class java.util.AbstractMap

containsKey, containsValue, toString

Methods inherited from class java.lang.Object

getClass, notify, notifyAll, wait, wait, wait

Methods inherited from interface speiger.src.collections.floats.maps.interfaces.Float2FloatConcurrentMap

compute, computeIfAbsent, computeIfPresent, forEach, getOrDefault, merge, putIfAbsent, replace, replace, replaceAll

Methods inherited from interface speiger.src.collections.floats.maps.interfaces.Float2FloatMap

addToAll, applyAsFloat, builder, containsKey, containsValue, entrySet, getDefaultReturnValue, mergeAllFloat, put, put, put, putAll, putAll, putAll, putAll, putAll, putAllIfAbsent, remove, replaceFloats, replaceFloats, setDefaultReturnValue, synchronize, synchronize, unmodifiable

Methods inherited from interface java.util.Map

equals, hashCode, putAll

Methods inherited from interface speiger.src.collections.floats.functions.function.FloatUnaryOperator

andThen, compose, identity

Methods inherited from interface speiger.src.collections.utils.ITrimmable

clearAndTrim, trim

Constructor Detail

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap()

Default Constructor

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(int minCapacity)

Constructor that defines the minimum capacity

Parameters:

minCapacity - the minimum capacity the HashMap is allowed to be.

Throws:

java.lang.IllegalStateException - if the minimum capacity is negative

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(int minCapacity,
                                        float loadFactor)

Constructor that defines the minimum capacity and load factor

Parameters:

minCapacity - the minimum capacity the HashMap is allowed to be.

loadFactor - the percentage of how full the backing array can be before they resize

Throws:

java.lang.IllegalStateException - if the minimum capacity is negative

java.lang.IllegalStateException - if the loadfactor is either below/equal to 0 or above/equal to 1

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(int minCapacity,
                                        int concurrencyLevel)

Constructor that defines the minimum capacity and concurrencyLevel

Parameters:

minCapacity - the minimum capacity the HashMap is allowed to be.

concurrencyLevel - decides how many operations can be performed at once.

Throws:

java.lang.IllegalStateException - if the minimum capacity is negative

java.lang.IllegalStateException - if the concurrencyLevel is either below/equal to 0 or above/equal to 65535

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(float loadFactor,
                                        int concurrencyLevel)

Constructor that defines the load factor and concurrencyLevel

Parameters:

loadFactor - the percentage of how full the backing array can be before they resize

concurrencyLevel - decides how many operations can be performed at once.

Throws:

java.lang.IllegalStateException - if the loadfactor is either below/equal to 0 or above/equal to 1

java.lang.IllegalStateException - if the concurrencyLevel is either below/equal to 0 or above/equal to 65535

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(int minCapacity,
                                        float loadFactor,
                                        int concurrencyLevel)

Constructor that defines the minimum capacity, load factor and concurrencyLevel

Parameters:

minCapacity - the minimum capacity the HashMap is allowed to be.

loadFactor - the percentage of how full the backing array can be before they resize

concurrencyLevel - decides how many operations can be performed at once.

Throws:

java.lang.IllegalStateException - if the minimum capacity is negative

java.lang.IllegalStateException - if the loadfactor is either below/equal to 0 or above/equal to 1

java.lang.IllegalStateException - if the concurrencyLevel is either below/equal to 0 or above/equal to 65535

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(java.lang.Float[] keys,
                                        java.lang.Float[] values)

Helper constructor that allow to create a map from boxed values (it will unbox them)

Parameters:

keys - the keys that should be put into the map

values - the values that should be put into the map.

Throws:

java.lang.IllegalStateException - if the keys and values do not match in lenght

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(java.lang.Float[] keys,
                                        java.lang.Float[] values,
                                        float loadFactor)

Helper constructor that allow to create a map from boxed values (it will unbox them)

Parameters:

keys - the keys that should be put into the map

values - the values that should be put into the map.

loadFactor - the percentage of how full the backing array can be before they resize

Throws:

java.lang.IllegalStateException - if the keys and values do not match in lenght

java.lang.IllegalStateException - if the loadfactor is either below/equal to 0 or above/equal to 1

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(java.lang.Float[] keys,
                                        java.lang.Float[] values,
                                        int concurrencyLevel)

Helper constructor that allow to create a map from boxed values (it will unbox them)

Parameters:

keys - the keys that should be put into the map

values - the values that should be put into the map.

concurrencyLevel - decides how many operations can be performed at once.

Throws:

java.lang.IllegalStateException - if the keys and values do not match in lenght

java.lang.IllegalStateException - if the concurrencyLevel is either below/equal to 0 or above/equal to 65535

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(java.lang.Float[] keys,
                                        java.lang.Float[] values,
                                        float loadFactor,
                                        int concurrencyLevel)

Helper constructor that allow to create a map from boxed values (it will unbox them)

Parameters:

keys - the keys that should be put into the map

values - the values that should be put into the map.

loadFactor - the percentage of how full the backing array can be before they resize

concurrencyLevel - decides how many operations can be performed at once.

Throws:

java.lang.IllegalStateException - if the keys and values do not match in lenght

java.lang.IllegalStateException - if the loadfactor is either below/equal to 0 or above/equal to 1

java.lang.IllegalStateException - if the concurrencyLevel is either below/equal to 0 or above/equal to 65535

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(float[] keys,
                                        float[] values)

Helper constructor that allow to create a map from unboxed values

Parameters:

keys - the keys that should be put into the map

values - the values that should be put into the map.

Throws:

java.lang.IllegalStateException - if the keys and values do not match in lenght

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(float[] keys,
                                        float[] values,
                                        float loadFactor)

Helper constructor that allow to create a map from unboxed values

Parameters:

keys - the keys that should be put into the map

values - the values that should be put into the map.

loadFactor - the percentage of how full the backing array can be before they resize

Throws:

java.lang.IllegalStateException - if the keys and values do not match in lenght

java.lang.IllegalStateException - if the loadfactor is either below/equal to 0 or above/equal to 1

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(float[] keys,
                                        float[] values,
                                        int concurrencyLevel)

Helper constructor that allow to create a map from unboxed values

Parameters:

keys - the keys that should be put into the map

values - the values that should be put into the map.

concurrencyLevel - decides how many operations can be performed at once.

Throws:

java.lang.IllegalStateException - if the keys and values do not match in lenght

java.lang.IllegalStateException - if the concurrencyLevel is either below/equal to 0 or above/equal to 65535

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(float[] keys,
                                        float[] values,
                                        float loadFactor,
                                        int concurrencyLevel)

Helper constructor that allow to create a map from unboxed values

Parameters:

keys - the keys that should be put into the map

values - the values that should be put into the map.

loadFactor - the percentage of how full the backing array can be before they resize

concurrencyLevel - decides how many operations can be performed at once.

Throws:

java.lang.IllegalStateException - if the keys and values do not match in lenght

java.lang.IllegalStateException - if the loadfactor is either below/equal to 0 or above/equal to 1

java.lang.IllegalStateException - if the concurrencyLevel is either below/equal to 0 or above/equal to 65535

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(java.util.Map<? extends java.lang.Float,? extends java.lang.Float> map)

A Helper constructor that allows to create a Map with exactly the same values as the provided map.

Parameters:

map - the values that should be present in the map

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(java.util.Map<? extends java.lang.Float,? extends java.lang.Float> map,
                                        float loadFactor)

A Helper constructor that allows to create a Map with exactly the same values as the provided map.

Parameters:

map - the values that should be present in the map

loadFactor - the percentage of how full the backing array can be before they resize

Throws:

java.lang.IllegalStateException - if the loadfactor is either below/equal to 0 or above/equal to 1

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(java.util.Map<? extends java.lang.Float,? extends java.lang.Float> map,
                                        int concurrencyLevel)

A Helper constructor that allows to create a Map with exactly the same values as the provided map.

Parameters:

map - the values that should be present in the map

concurrencyLevel - decides how many operations can be performed at once.

Throws:

java.lang.IllegalStateException - if the concurrencyLevel is either below/equal to 0 or above/equal to 65535

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(java.util.Map<? extends java.lang.Float,? extends java.lang.Float> map,
                                        float loadFactor,
                                        int concurrencyLevel)

A Helper constructor that allows to create a Map with exactly the same values as the provided map.

Parameters:

map - the values that should be present in the map

loadFactor - the percentage of how full the backing array can be before they resize

concurrencyLevel - decides how many operations can be performed at once.

Throws:

java.lang.IllegalStateException - if the loadfactor is either below/equal to 0 or above/equal to 1

java.lang.IllegalStateException - if the concurrencyLevel is either below/equal to 0 or above/equal to 65535

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(Float2FloatMap map)

A Type Specific Helper function that allows to create a new Map with exactly the same values as the provided map.

Parameters:

map - the values that should be present in the map

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(Float2FloatMap map,
                                        float loadFactor)

A Type Specific Helper function that allows to create a new Map with exactly the same values as the provided map.

Parameters:

map - the values that should be present in the map

loadFactor - the percentage of how full the backing array can be before they resize

Throws:

java.lang.IllegalStateException - if the loadfactor is either below/equal to 0 or above/equal to 1

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(Float2FloatMap map,
                                        int concurrencyLevel)

A Type Specific Helper function that allows to create a new Map with exactly the same values as the provided map.

Parameters:

map - the values that should be present in the map

concurrencyLevel - decides how many operations can be performed at once.

Throws:

java.lang.IllegalStateException - if the concurrencyLevel is either below/equal to 0 or above/equal to 65535

Float2FloatConcurrentOpenHashMap

public Float2FloatConcurrentOpenHashMap(Float2FloatMap map,
                                        float loadFactor,
                                        int concurrencyLevel)

A Type Specific Helper function that allows to create a new Map with exactly the same values as the provided map.

Parameters:

map - the values that should be present in the map

loadFactor - the percentage of how full the backing array can be before they resize

concurrencyLevel - decides how many operations can be performed at once.

Throws:

java.lang.IllegalStateException - if the loadfactor is either below/equal to 0 or above/equal to 1

java.lang.IllegalStateException - if the concurrencyLevel is either below/equal to 0 or above/equal to 65535

Method Detail

put

public float put(float key,
                 float value)

Description copied from interface: Float2FloatMap

Type Specific method to reduce boxing/unboxing of values

Specified by:

put in interface Float2FloatMap

Parameters:

key - the key that should be inserted,

value - the value that should be inserted

Returns:

the last present value or default return value.

See Also:

Map.put(Object, Object)

putIfAbsent

public float putIfAbsent(float key,
                         float value)

Description copied from interface: Float2FloatMap

Type Specific method to reduce boxing/unboxing of values

Specified by:

putIfAbsent in interface Float2FloatMap

Parameters:

key - the key that should be inserted,

value - the value that should be inserted

Returns:

the last present value or default return value.

See Also:

Map.putIfAbsent(Object, Object)

addTo

public float addTo(float key,
                   float value)

Description copied from interface: Float2FloatMap

A Helper method to add a primitives together. If key is not present then this functions as a put.

Specified by:

addTo in interface Float2FloatMap

Parameters:

key - the key that should be inserted,

value - the value that should be inserted / added

Returns:

the last present value or default return value.

subFrom

public float subFrom(float key,
                     float value)

Description copied from interface: Float2FloatMap

A Helper method to subtract from primitive from each other. If the key is not present it will just return the defaultValue How the implementation works is that it will subtract from the current value (if not present it will do nothing) and fence it to the Float2FloatMap.getDefaultReturnValue() If the fence is reached the element will be automaticall removed

Specified by:

subFrom in interface Float2FloatMap

Parameters:

key - that should be subtract from

value - that should be subtract

Returns:

the last present or default return value

remove

public float remove(float key)

Description copied from interface: Float2FloatMap

Type Specific remove function to reduce boxing/unboxing

Specified by:

remove in interface Float2FloatMap

Parameters:

key - the element that should be removed

Returns:

the value that was removed or default return value

remove

public boolean remove(float key,
                      float value)

Description copied from interface: Float2FloatMap

Type Specific remove function to reduce boxing/unboxing

Specified by:

remove in interface Float2FloatMap

Parameters:

key - the element that should be removed

value - the expected value that should be found

Returns:

true if the key and value was found and removed

See Also:

Map.remove(Object, Object)

remove

public boolean remove(java.lang.Object key,
                      java.lang.Object value)

Specified by:

remove in interface java.util.concurrent.ConcurrentMap<java.lang.Float,java.lang.Float>

Specified by:

remove in interface java.util.Map<java.lang.Float,java.lang.Float>

Specified by:

remove in interface Float2FloatConcurrentMap

Specified by:

remove in interface Float2FloatMap

Parameters:

key - the element that should be removed

value - the expected value that should be found

Returns:

true if the key and value was found and removed

See Also:

Map.remove(Object, Object)

removeOrDefault

public float removeOrDefault(float key,
                             float defaultValue)

Description copied from interface: Float2FloatMap

Type-Specific Remove function with a default return value if wanted.

Specified by:

removeOrDefault in interface Float2FloatMap

Parameters:

key - the element that should be removed

defaultValue - the value that should be returned if the entry doesn't exist

Returns:

the value that was removed or default value

See Also:

Map.remove(Object, Object)

get

public float get(float key)

Description copied from interface: Float2FloatMap

A Type Specific get method to reduce boxing/unboxing

Specified by:

get in interface Float2FloatMap

Parameters:

key - the key that is searched for

Returns:

the searched value or default return value

get

public java.lang.Float get(java.lang.Object key)

Specified by:

get in interface java.util.Map<java.lang.Float,java.lang.Float>

Specified by:

get in interface Float2FloatMap

Overrides:

get in class AbstractFloat2FloatMap

getOrDefault

public float getOrDefault(float key,
                          float defaultValue)

Description copied from interface: Float2FloatMap

A Type Specific getOrDefault method to reduce boxing/unboxing

Specified by:

getOrDefault in interface Float2FloatMap

Overrides:

getOrDefault in class AbstractFloat2FloatMap

Parameters:

key - the key that is searched for

defaultValue - the value that should be returned if the key is not present

Returns:

the searched value or defaultValue value

forEach

public void forEach(FloatFloatConsumer action)

Description copied from interface: Float2FloatMap

Type Specific forEach method to reduce boxing/unboxing

Specified by:

forEach in interface Float2FloatMap

Overrides:

forEach in class AbstractFloat2FloatMap

Parameters:

action - processor of the values that are iterator over

copy

public Float2FloatConcurrentOpenHashMap copy()

Description copied from interface: Float2FloatMap

A Function that does a shallow clone of the Map itself. This function is more optimized then a copy constructor since the Map does not have to be unsorted/resorted. It can be compared to Cloneable but with less exception risk

Specified by:

copy in interface Float2FloatMap

Overrides:

copy in class AbstractFloat2FloatMap

Returns:

a Shallow Copy of the Map

containsKey

public boolean containsKey(float key)

Description copied from interface: Float2FloatMap

Type Specific method to reduce boxing/unboxing of values

Specified by:

containsKey in interface Float2FloatMap

Overrides:

containsKey in class AbstractFloat2FloatMap

Parameters:

key - element that is searched for

Returns:

if the key is present

containsValue

public boolean containsValue(float value)

Description copied from interface: Float2FloatMap

Type Specific method to reduce boxing/unboxing of values

Specified by:

containsValue in interface Float2FloatMap

Overrides:

containsValue in class AbstractFloat2FloatMap

Parameters:

value - element that is searched for

Returns:

if the value is present

replace

public boolean replace(float key,
                       float oldValue,
                       float newValue)

Description copied from interface: Float2FloatMap

A Type Specific replace method to replace an existing value

Specified by:

replace in interface Float2FloatMap

Overrides:

replace in class AbstractFloat2FloatMap

Parameters:

key - the element that should be searched for

oldValue - the expected value to be replaced

newValue - the value to replace the oldValue with.

Returns:

true if the value got replaced

replace

public float replace(float key,
                     float value)

Description copied from interface: Float2FloatMap

A Type Specific replace method to reduce boxing/unboxing replace an existing value

Specified by:

replace in interface Float2FloatMap

Overrides:

replace in class AbstractFloat2FloatMap

Parameters:

key - the element that should be searched for

value - the value to replace with.

Returns:

the present value or default return value

computeFloat

public float computeFloat(float key,
                          FloatFloatUnaryOperator mappingFunction)

Description copied from interface: Float2FloatMap

A Type Specific compute method to reduce boxing/unboxing

Specified by:

computeFloat in interface Float2FloatMap

Overrides:

computeFloat in class AbstractFloat2FloatMap

Parameters:

key - the key that should be computed

mappingFunction - the operator that should generate the value

Returns:

the result of the computation

computeFloatIfAbsent

public float computeFloatIfAbsent(float key,
                                  FloatUnaryOperator mappingFunction)

Description copied from interface: Float2FloatMap

A Type Specific compute method to reduce boxing/unboxing

Specified by:

computeFloatIfAbsent in interface Float2FloatMap

Overrides:

computeFloatIfAbsent in class AbstractFloat2FloatMap

Parameters:

key - the key that should be computed

mappingFunction - the operator that should generate the value if not present

Returns:

the result of the computed value or present value

supplyFloatIfAbsent

public float supplyFloatIfAbsent(float key,
                                 FloatSupplier valueProvider)

Description copied from interface: Float2FloatMap

A Supplier based computeIfAbsent function to fill the most used usecase of this function

Specified by:

supplyFloatIfAbsent in interface Float2FloatMap

Overrides:

supplyFloatIfAbsent in class AbstractFloat2FloatMap

Parameters:

key - the key that should be computed

valueProvider - the value if not present

Returns:

the result of the computed value or present value

computeFloatIfPresent

public float computeFloatIfPresent(float key,
                                   FloatFloatUnaryOperator mappingFunction)

Description copied from interface: Float2FloatMap

A Type Specific compute method to reduce boxing/unboxing

Specified by:

computeFloatIfPresent in interface Float2FloatMap

Overrides:

computeFloatIfPresent in class AbstractFloat2FloatMap

Parameters:

key - the key that should be computed

mappingFunction - the operator that should generate the value if present

Returns:

the result of the default return value or present value

mergeFloat

public float mergeFloat(float key,
                        float value,
                        FloatFloatUnaryOperator mappingFunction)

Description copied from interface: Float2FloatMap

A Type Specific merge method to reduce boxing/unboxing

Specified by:

mergeFloat in interface Float2FloatMap

Overrides:

mergeFloat in class AbstractFloat2FloatMap

Parameters:

key - the key that should be be searched for

value - the value that should be merged with

mappingFunction - the operator that should generate the new Value

Returns:

the result of the merge

clear

public void clear()

Specified by:

clear in interface java.util.Map<java.lang.Float,java.lang.Float>

Overrides:

clear in class java.util.AbstractMap<java.lang.Float,java.lang.Float>

trim

public boolean trim(int size)

Description copied from interface: ITrimmable

Trims the original collection down to the size of the current elements or the requested size depending which is bigger

Specified by:

trim in interface ITrimmable

Parameters:

size - the requested trim size.

Returns:

if the internal array has been trimmed.

clearAndTrim

public void clearAndTrim(int size)

Description copied from interface: ITrimmable

Trims the collection down to the requested size and clears all elements while doing so

Specified by:

clearAndTrim in interface ITrimmable

Parameters:

size - the amount of elements that should be allowed

isEmpty

public boolean isEmpty()

Specified by:

isEmpty in interface java.util.Map<java.lang.Float,java.lang.Float>

Overrides:

isEmpty in class java.util.AbstractMap<java.lang.Float,java.lang.Float>

size

public int size()

Specified by:

size in interface java.util.Map<java.lang.Float,java.lang.Float>

Overrides:

size in class java.util.AbstractMap<java.lang.Float,java.lang.Float>

float2FloatEntrySet

public ObjectSet<Float2FloatMap.Entry> float2FloatEntrySet()

Description copied from interface: Float2FloatMap

Type Sensitive EntrySet to reduce boxing/unboxing and optionally Temp Object Allocation.

Specified by:

float2FloatEntrySet in interface Float2FloatMap

Returns:

a EntrySet of the collection

keySet

public FloatSet keySet()

Specified by:

keySet in interface java.util.Map<java.lang.Float,java.lang.Float>

Specified by:

keySet in interface Float2FloatMap

Overrides:

keySet in class AbstractFloat2FloatMap

values

public FloatCollection values()

Specified by:

values in interface java.util.Map<java.lang.Float,java.lang.Float>

Specified by:

values in interface Float2FloatMap

Overrides:

values in class AbstractFloat2FloatMap