Uses of Class
java.lang.Integer
Package
Description
A Java API for Stream Control Transport Protocol.
Provides classes and interface relating to fonts.
Provides classes that are fundamental to the design of the Java
programming language.
Provides the classes for implementing networking applications.
Defines channels, which represent connections to entities that are capable of
performing I/O operations, such as files and sockets; defines selectors, for
multiplexed, non-blocking I/O operations.
Provides the API for accessing and processing data stored in a
data source (usually a relational database) using the
Java programming language.
Contains the collections framework, some internationalization support classes,
a service loader, properties, random number generation, string parsing
and scanning classes, base64 encoding and decoding, a bit array, and
several miscellaneous utility classes.
Service provider classes for the classes in the java.util package.
Classes to support functional-style operations on streams of elements, such
as map-reduce transformations on collections.
Public classes used by the built-in TIFF plug-ins.
Provides the core classes for the Java Management Extensions.
Provides the open data types and Open MBean descriptor classes.
Provides the definition of the Relation Service.
Interfaces for remote access to
JMX MBean servers.
The RMI connector is a connector for the JMX Remote API that
uses RMI to transmit client requests to a remote MBean server.
Provides the definition of the Timer MBean.
The scripting API consists of interfaces and classes that define
Java Scripting Engines and provides
a framework for their use in Java applications.
Provides a set of "lightweight" (all-Java language) components
that, to the maximum degree possible, work the same on all platforms.
Provides user interface objects built according to the Basic look and feel.
Incubating Feature. Will be removed in a future release.
Provides interfaces for creating tools, such as a Read-Eval-Print Loop (REPL),
which interactively evaluate "snippets" of Java programming language code.
Platform specific socket options for the
java.net
and java.nio.channels
socket classes.-
Uses of Integer in com.sun.nio.sctp
Modifier and TypeFieldDescriptionstatic SctpSocketOption<Integer>
SctpStandardSocketOptions.SCTP_FRAGMENT_INTERLEAVE
Fragmented interleave controls how the presentation of messages occur for the message receiver.static SctpSocketOption<Integer>
SctpStandardSocketOptions.SO_LINGER
Linger on close if data is present.static SctpSocketOption<Integer>
SctpStandardSocketOptions.SO_RCVBUF
The size of the socket receive buffer.static SctpSocketOption<Integer>
SctpStandardSocketOptions.SO_SNDBUF
The size of the socket send buffer. -
Uses of Integer in java.awt.font
Modifier and TypeFieldDescriptionstatic Integer
TextAttribute.KERNING_ON
Request standard kerning.static Integer
TextAttribute.LIGATURES_ON
Request standard optional ligatures.static Integer
TextAttribute.SUPERSCRIPT_SUB
Standard subscript.static Integer
TextAttribute.SUPERSCRIPT_SUPER
Standard superscript.static Integer
TextAttribute.UNDERLINE_LOW_DASHED
Single pixel dashed low underline.static Integer
TextAttribute.UNDERLINE_LOW_DOTTED
Single pixel dotted low underline.static Integer
TextAttribute.UNDERLINE_LOW_GRAY
Double pixel gray low underline.static Integer
TextAttribute.UNDERLINE_LOW_ONE_PIXEL
Single pixel solid low underline.static Integer
TextAttribute.UNDERLINE_LOW_TWO_PIXEL
Double pixel solid low underline.static Integer
TextAttribute.UNDERLINE_ON
Standard underline. -
Uses of Integer in java.lang
Modifier and TypeFieldDescriptionInteger.TYPE
TheClass
instance representing the primitive typeint
.Modifier and TypeMethodDescriptionstatic Integer
Decodes aString
into anInteger
.static Integer
Integer.getInteger(String nm)
Determines the integer value of the system property with the specified name.static Integer
Integer.getInteger(String nm, int val)
Determines the integer value of the system property with the specified name.static Integer
Integer.getInteger(String nm, Integer val)
Returns the integer value of the system property with the specified name.Integer.resolveConstantDesc(MethodHandles.Lookup lookup)
Resolves this instance as aConstantDesc
, the result of which is the instance itself.static Integer
Integer.valueOf(int i)
Returns anInteger
instance representing the specifiedint
value.static Integer
Returns anInteger
object holding the value of the specifiedString
.static Integer
Returns anInteger
object holding the value extracted from the specifiedString
when parsed with the radix given by the second argument.Modifier and TypeMethodDescriptionRuntime.Version.build()
Returns the build number.Integer.describeConstable()
Returns anOptional
containing the nominal descriptor for this instance, which is the instance itself.Runtime.Version.version()
Returns an unmodifiableList
of the integers represented in the version number. -
Uses of Integer in java.net
Modifier and TypeFieldDescriptionstatic SocketOption<Integer>
StandardSocketOptions.IP_MULTICAST_TTL
The time-to-live for Internet Protocol (IP) multicast datagrams.static SocketOption<Integer>
StandardSocketOptions.IP_TOS
The Type of Service (ToS) octet in the Internet Protocol (IP) header.static SocketOption<Integer>
StandardSocketOptions.SO_LINGER
Linger on close if data is present.static SocketOption<Integer>
StandardSocketOptions.SO_RCVBUF
The size of the socket receive buffer.static SocketOption<Integer>
StandardSocketOptions.SO_SNDBUF
The size of the socket send buffer. -
Uses of Integer in java.nio.channels
Modifier and TypeMethodDescriptionAsynchronousByteChannel.read(ByteBuffer dst)
Reads a sequence of bytes from this channel into the given buffer.AsynchronousFileChannel.read(ByteBuffer dst, long position)
Reads a sequence of bytes from this channel into the given buffer, starting at the given file position.AsynchronousSocketChannel.read(ByteBuffer dst)
AsynchronousByteChannel.write(ByteBuffer src)
Writes a sequence of bytes to this channel from the given buffer.AsynchronousFileChannel.write(ByteBuffer src, long position)
Writes a sequence of bytes to this channel from the given buffer, starting at the given file position.AsynchronousSocketChannel.write(ByteBuffer src)
Modifier and TypeMethodDescription<A> void
AsynchronousByteChannel.read(ByteBuffer dst, A attachment, CompletionHandler<Integer,? super A> handler)
Reads a sequence of bytes from this channel into the given buffer.abstract <A> void
AsynchronousFileChannel.read(ByteBuffer dst, long position, A attachment, CompletionHandler<Integer,? super A> handler)
Reads a sequence of bytes from this channel into the given buffer, starting at the given file position.abstract <A> void
AsynchronousSocketChannel.read(ByteBuffer dst, long timeout, TimeUnit unit, A attachment, CompletionHandler<Integer,? super A> handler)
Reads a sequence of bytes from this channel into the given buffer.<A> void
AsynchronousSocketChannel.read(ByteBuffer dst, A attachment, CompletionHandler<Integer,? super A> handler)
<A> void
AsynchronousByteChannel.write(ByteBuffer src, A attachment, CompletionHandler<Integer,? super A> handler)
Writes a sequence of bytes to this channel from the given buffer.abstract <A> void
AsynchronousFileChannel.write(ByteBuffer src, long position, A attachment, CompletionHandler<Integer,? super A> handler)
Writes a sequence of bytes to this channel from the given buffer, starting at the given file position.abstract <A> void
AsynchronousSocketChannel.write(ByteBuffer src, long timeout, TimeUnit unit, A attachment, CompletionHandler<Integer,? super A> handler)
Writes a sequence of bytes to this channel from the given buffer.<A> void
AsynchronousSocketChannel.write(ByteBuffer src, A attachment, CompletionHandler<Integer,? super A> handler)
-
Uses of Integer in java.sql
Modifier and TypeMethodDescriptionJDBCType.getVendorTypeNumber()
Returns the vendor specific type number for the data type.SQLType.getVendorTypeNumber()
Returns the vendor specific type number for the data type. -
Uses of Integer in java.util
Modifier and TypeMethodDescriptiondefault Integer
PrimitiveIterator.OfInt.next()
Returns the next element in the iteration.Modifier and TypeMethodDescriptionCalendar.getDisplayNames(int field, int style, Locale locale)
Returns aMap
containing all names of the calendarfield
in the givenstyle
andlocale
and their corresponding field values.Modifier and TypeMethodDescriptiondefault void
PrimitiveIterator.OfInt.forEachRemaining(Consumer<? super Integer> action)
Performs the given action for each remaining element until all elements have been processed or the action throws an exception.default void
Spliterator.OfInt.forEachRemaining(Consumer<? super Integer> action)
Performs the given action for each remaining element, sequentially in the current thread, until all elements have been processed or the action throws an exception.default boolean
Spliterator.OfInt.tryAdvance(Consumer<? super Integer> action)
If a remaining element exists, performs the given action on it, returningtrue
; else returnsfalse
. -
Uses of Integer in java.util.spi
Modifier and TypeMethodDescriptionCalendarNameProvider.getDisplayNames(String calendarType, int field, int style, Locale locale)
Returns aMap
containing all string representations (display names) of theCalendar
field
in the givenstyle
andlocale
and their corresponding field values. -
Uses of Integer in java.util.stream
Modifier and TypeMethodDescriptionIntStream.boxed()
Returns aStream
consisting of the elements of this stream, each boxed to anInteger
.Collectors.summingInt(ToIntFunction<? super T> mapper)
Returns aCollector
that produces the sum of a integer-valued function applied to the input elements. -
Uses of Integer in javax.imageio.plugins.tiff
Modifier and TypeMethodDescriptionTIFFTagSet.getTagNumbers()
Retrieves an unmodifiable numerically increasing set of tag numbers. -
Uses of Integer in javax.management
Modifier and TypeMethodDescriptionMBeanServer.getMBeanCount()
Returns the number of MBeans registered in the MBean server.MBeanServerConnection.getMBeanCount()
Returns the number of MBeans registered in the MBean server. -
Uses of Integer in javax.management.openmbean
Modifier and TypeFieldDescriptionstatic SimpleType<Integer>
SimpleType.INTEGER
TheSimpleType
instance describing values whose Java class name isjava.lang.Integer
. -
Uses of Integer in javax.management.relation
Modifier and TypeMethodDescriptionRelationService.checkRoleReading(String roleName, String relationTypeName)
Checks if given Role can be read in a relation of the given type.RelationServiceMBean.checkRoleReading(String roleName, String relationTypeName)
Checks if given Role can be read in a relation of the given type.RelationService.checkRoleWriting(Role role, String relationTypeName, Boolean initFlag)
Checks if given Role can be set in a relation of given type.RelationServiceMBean.checkRoleWriting(Role role, String relationTypeName, Boolean initFlag)
Checks if given Role can be set in a relation of given type.Relation.getRoleCardinality(String roleName)
Returns the number of MBeans currently referenced in the given role.RelationService.getRoleCardinality(String relationId, String roleName)
Retrieves the number of MBeans currently referenced in the given role.RelationServiceMBean.getRoleCardinality(String relationId, String roleName)
Retrieves the number of MBeans currently referenced in the given role.RelationSupport.getRoleCardinality(String roleName)
Returns the number of MBeans currently referenced in the given role. -
Uses of Integer in javax.management.remote
Modifier and TypeMethodDescriptionTargetedNotification.getListenerID()
The ID of the listener to which the notification is targeted.ModifierConstructorDescriptionTargetedNotification(Notification notification, Integer listenerID)
Constructs aTargetedNotification
object. -
Uses of Integer in javax.management.remote.rmi
Modifier and TypeMethodDescriptionInteger[]
RMIConnection.addNotificationListeners(ObjectName[] names, MarshalledObject[] filters, Subject[] delegationSubjects)
Integer[]
RMIConnectionImpl_Stub.addNotificationListeners(ObjectName[] $param_arrayOf_ObjectName_1, MarshalledObject[] $param_arrayOf_MarshalledObject_2, Subject[] $param_arrayOf_Subject_3)
Integer[]
RMIConnectionImpl.addNotificationListeners(ObjectName[] names, MarshalledObject[] filters, Subject[] delegationSubjects)
RMIConnection.getMBeanCount(Subject delegationSubject)
Handles the methodMBeanServerConnection.getMBeanCount()
.RMIConnectionImpl_Stub.getMBeanCount(Subject $param_Subject_1)
RMIConnectionImpl.getMBeanCount(Subject delegationSubject)
Modifier and TypeMethodDescriptionvoid
RMIConnection.removeNotificationListeners(ObjectName name, Integer[] listenerIDs, Subject delegationSubject)
void
RMIConnectionImpl_Stub.removeNotificationListeners(ObjectName $param_ObjectName_1, Integer[] $param_arrayOf_Integer_2, Subject $param_Subject_3)
void
RMIConnectionImpl.removeNotificationListeners(ObjectName name, Integer[] listenerIDs, Subject delegationSubject)
-
Uses of Integer in javax.management.timer
Modifier and TypeMethodDescriptionTimer.addNotification(String type, String message, Object userData, Date date)
Creates a new timer notification with the specifiedtype
,message
anduserData
and inserts it into the list of notifications with a given date and a null period and number of occurrences.Timer.addNotification(String type, String message, Object userData, Date date, long period)
Creates a new timer notification with the specifiedtype
,message
anduserData
and inserts it into the list of notifications with a given date and period and a null number of occurrences.Timer.addNotification(String type, String message, Object userData, Date date, long period, long nbOccurences)
Creates a new timer notification with the specifiedtype
,message
anduserData
and inserts it into the list of notifications with a given date, period and number of occurrences.Timer.addNotification(String type, String message, Object userData, Date date, long period, long nbOccurences, boolean fixedRate)
Creates a new timer notification with the specifiedtype
,message
anduserData
and inserts it into the list of notifications with a given date, period and number of occurrences.TimerMBean.addNotification(String type, String message, Object userData, Date date)
Creates a new timer notification with the specifiedtype
,message
anduserData
and inserts it into the list of notifications with a given date and a null period and number of occurrences.TimerMBean.addNotification(String type, String message, Object userData, Date date, long period)
Creates a new timer notification with the specifiedtype
,message
anduserData
and inserts it into the list of notifications with a given date and period and a null number of occurrences.TimerMBean.addNotification(String type, String message, Object userData, Date date, long period, long nbOccurences)
Creates a new timer notification with the specifiedtype
,message
anduserData
and inserts it into the list of notifications with a given date, period and number of occurrences.TimerMBean.addNotification(String type, String message, Object userData, Date date, long period, long nbOccurences, boolean fixedRate)
Creates a new timer notification with the specifiedtype
,message
anduserData
and inserts it into the list of notifications with a given date, period and number of occurrences.TimerNotification.getNotificationID()
Gets the identifier of this timer notification.Modifier and TypeMethodDescriptionTimer.getAllNotificationIDs()
Gets all timer notification identifiers registered into the list of notifications.TimerMBean.getAllNotificationIDs()
Gets all timer notification identifiers registered into the list of notifications.Timer.getNotificationIDs(String type)
Gets all the identifiers of timer notifications corresponding to the specified type.TimerMBean.getNotificationIDs(String type)
Gets all the identifiers of timer notifications corresponding to the specified type.Modifier and TypeMethodDescriptionGets a copy of the date associated to a timer notification.Gets a copy of the date associated to a timer notification.Timer.getFixedRate(Integer id)
Gets a copy of the flag indicating whether a periodic notification is executed at fixed-delay or at fixed-rate.TimerMBean.getFixedRate(Integer id)
Gets a copy of the flag indicating whether a periodic notification is executed at fixed-delay or at fixed-rate.Timer.getNbOccurences(Integer id)
Gets a copy of the remaining number of occurrences associated to a timer notification.TimerMBean.getNbOccurences(Integer id)
Gets a copy of the remaining number of occurrences associated to a timer notification.Timer.getNotificationMessage(Integer id)
Gets the timer notification detailed message corresponding to the specified identifier.TimerMBean.getNotificationMessage(Integer id)
Gets the timer notification detailed message corresponding to the specified identifier.Timer.getNotificationType(Integer id)
Gets the timer notification type corresponding to the specified identifier.TimerMBean.getNotificationType(Integer id)
Gets the timer notification type corresponding to the specified identifier.Timer.getNotificationUserData(Integer id)
Gets the timer notification user data object corresponding to the specified identifier.TimerMBean.getNotificationUserData(Integer id)
Gets the timer notification user data object corresponding to the specified identifier.Gets a copy of the period (in milliseconds) associated to a timer notification.Gets a copy of the period (in milliseconds) associated to a timer notification.void
Timer.removeNotification(Integer id)
Removes the timer notification corresponding to the specified identifier from the list of notifications.void
TimerMBean.removeNotification(Integer id)
Removes the timer notification corresponding to the specified identifier from the list of notifications.ModifierConstructorDescriptionTimerNotification(String type, Object source, long sequenceNumber, long timeStamp, String msg, Integer id)
Creates a timer notification object. -
Uses of Integer in javax.script
-
Uses of Integer in javax.swing
Modifier and TypeFieldDescriptionstatic Integer
JLayeredPane.DEFAULT_LAYER
Convenience object defining the Default layer.static Integer
JLayeredPane.DRAG_LAYER
Convenience object defining the Drag layer.static Integer
JLayeredPane.FRAME_CONTENT_LAYER
Convenience object defining the Frame Content layer.static Integer
JLayeredPane.MODAL_LAYER
Convenience object defining the Modal layer.static Integer
JLayeredPane.PALETTE_LAYER
Convenience object defining the Palette layer.static Integer
JLayeredPane.POPUP_LAYER
Convenience object defining the Popup layer.Modifier and TypeMethodDescriptionprotected Integer
JLayeredPane.getObjectForLayer(int layer)
Returns the Integer object associated with a specified layer.Modifier and TypeMethodDescriptionJSlider.createStandardLabels(int increment)
Creates aHashtable
of numerical text labels, starting at the slider minimum, and using the increment specified.JSlider.createStandardLabels(int increment, int start)
Creates aHashtable
of numerical text labels, starting at the starting point specified, and using the increment specified.JLayeredPane.getComponentToLayer()
Returns the hashtable that maps components to layers. -
Uses of Integer in javax.swing.plaf.basic
Modifier and TypeMethodDescriptionprotected Integer
BasicSliderUI.getHighestValue()
Returns the biggest value that has an entry in the label table.protected Integer
BasicSliderUI.getLowestValue()
Returns the smallest value that has an entry in the label table. -
Uses of Integer in jdk.incubator.vector
Modifier and TypeFieldDescriptionstatic VectorOperators.Conversion<Byte,Integer>
VectorOperators.B2I
ConvertbyteVal
to(int)byteVal
.static VectorOperators.Conversion<Double,Integer>
VectorOperators.D2I
ConvertdoubleVal
to(int)doubleVal
.static VectorOperators.Conversion<Float,Integer>
VectorOperators.F2I
ConvertfloatVal
to(int)floatVal
.static VectorOperators.Conversion<Integer,Byte>
VectorOperators.I2B
ConvertintVal
to(byte)intVal
.static VectorOperators.Conversion<Integer,Double>
VectorOperators.I2D
ConvertintVal
to(double)intVal
.static VectorOperators.Conversion<Integer,Float>
VectorOperators.I2F
ConvertintVal
to(float)intVal
.static VectorOperators.Conversion<Integer,Long>
VectorOperators.I2L
ConvertintVal
to(long)intVal
.static VectorOperators.Conversion<Integer,Short>
VectorOperators.I2S
ConvertintVal
to(short)intVal
.static VectorOperators.Conversion<Long,Integer>
VectorOperators.L2I
ConvertlongVal
to(int)longVal
.static VectorOperators.Conversion<Float,Integer>
VectorOperators.REINTERPRET_F2I
Reinterpret bits offloatVal
asint
.static VectorOperators.Conversion<Integer,Float>
VectorOperators.REINTERPRET_I2F
Reinterpret bits ofintVal
asfloat
.static VectorOperators.Conversion<Short,Integer>
VectorOperators.S2I
ConvertshortVal
to(int)shortVal
.static VectorSpecies<Integer>
IntVector.SPECIES_128
Species representingIntVector
s ofVectorShape.S_128_BIT
.static VectorSpecies<Integer>
IntVector.SPECIES_256
Species representingIntVector
s ofVectorShape.S_256_BIT
.static VectorSpecies<Integer>
IntVector.SPECIES_512
Species representingIntVector
s ofVectorShape.S_512_BIT
.static VectorSpecies<Integer>
IntVector.SPECIES_64
Species representingIntVector
s ofVectorShape.S_64_BIT
.static VectorSpecies<Integer>
IntVector.SPECIES_MAX
Species representingIntVector
s ofVectorShape.S_Max_BIT
.static VectorSpecies<Integer>
IntVector.SPECIES_PREFERRED
Preferred species forIntVector
s.static VectorOperators.Conversion<Byte,Integer>
VectorOperators.ZERO_EXTEND_B2I
Zero-extendbyteVal
toint
.static VectorOperators.Conversion<Integer,Long>
VectorOperators.ZERO_EXTEND_I2L
Zero-extendintVal
tolong
.static VectorOperators.Conversion<Short,Integer>
VectorOperators.ZERO_EXTEND_S2I
Zero-extendshortVal
toint
.Modifier and TypeMethodDescriptionabstract VectorMask<Integer>
IntVector.compare(VectorOperators.Comparison op, int e)
Tests this vector by comparing it with an input scalar, according to the given comparison operation.IntVector.compare(VectorOperators.Comparison op, int e, VectorMask<Integer> m)
Tests this vector by comparing it with an input scalar, according to the given comparison operation, in lanes selected by a mask.abstract VectorMask<Integer>
IntVector.compare(VectorOperators.Comparison op, long e)
Tests this vector by comparing it with an input scalar, according to the given comparison operation.IntVector.compare(VectorOperators.Comparison op, long e, VectorMask<Integer> m)
Tests this vector by comparing it with an input scalar, according to the given comparison operation, in lanes selected by a mask.abstract VectorMask<Integer>
IntVector.compare(VectorOperators.Comparison op, Vector<Integer> v)
Tests this vector by comparing it with another input vector, according to the given comparison operation.IntVector.compare(VectorOperators.Comparison op, Vector<Integer> v, VectorMask<Integer> m)
Tests this vector by comparing it with another input vector, according to the given comparison operation, in lanes selected by a mask.IntVector.eq(int e)
Tests if this vector is equal to an input scalar.Tests if this vector is equal to another input vector.IntVector.lt(int e)
Tests if this vector is less than an input scalar.Tests if this vector is less than another input vector.abstract VectorMask<Integer>
IntVector.test(VectorOperators.Test op)
Tests the lanes of this vector according to the given operation.IntVector.test(VectorOperators.Test op, VectorMask<Integer> m)
Test selected lanes of this vector, according to the given operation.Modifier and TypeMethodDescriptionIntVector.add(int e, VectorMask<Integer> m)
Adds this vector to the broadcast of an input scalar, selecting lane elements controlled by a mask.Adds this vector to a second input vector.IntVector.add(Vector<Integer> v, VectorMask<Integer> m)
Adds this vector to a second input vector, selecting lanes under the control of a mask.IntVector.add(Vector<Integer> v, VectorMask<Integer> m)
Adds this vector to a second input vector, selecting lanes under the control of a mask.Computes the bitwise logical conjunction (&
) of this vector and a second input vector.IntVector.bitwiseBlend(int bits, Vector<Integer> mask)
Blends together the bits of a vector and a scalar under the control of another vector, which supplies mask bits.IntVector.bitwiseBlend(Vector<Integer> bits, int mask)
Blends together the bits of two vectors under the control of a scalar, which supplies mask bits.IntVector.bitwiseBlend(Vector<Integer> bits, Vector<Integer> mask)
Blends together the bits of two vectors under the control of a third, which supplies mask bits.IntVector.blend(int e, VectorMask<Integer> m)
Replaces selected lanes of this vector with a scalar value under the control of a mask.IntVector.blend(long e, VectorMask<Integer> m)
Replaces selected lanes of this vector with a scalar value under the control of a mask.abstract IntVector
IntVector.blend(Vector<Integer> v, VectorMask<Integer> m)
Replaces selected lanes of this vector with corresponding lanes from a second input vector under the control of a mask.abstract IntVector
IntVector.blend(Vector<Integer> v, VectorMask<Integer> m)
Replaces selected lanes of this vector with corresponding lanes from a second input vector under the control of a mask.static IntVector
IntVector.broadcast(VectorSpecies<Integer> species, int e)
Returns a vector of the given species where all lane elements are set to the primitive valuee
.static IntVector
IntVector.broadcast(VectorSpecies<Integer> species, long e)
Returns a vector of the given species where all lane elements are set to the primitive valuee
.IntVector.compare(VectorOperators.Comparison op, int e, VectorMask<Integer> m)
Tests this vector by comparing it with an input scalar, according to the given comparison operation, in lanes selected by a mask.IntVector.compare(VectorOperators.Comparison op, long e, VectorMask<Integer> m)
Tests this vector by comparing it with an input scalar, according to the given comparison operation, in lanes selected by a mask.abstract VectorMask<Integer>
IntVector.compare(VectorOperators.Comparison op, Vector<Integer> v)
Tests this vector by comparing it with another input vector, according to the given comparison operation.IntVector.compare(VectorOperators.Comparison op, Vector<Integer> v, VectorMask<Integer> m)
Tests this vector by comparing it with another input vector, according to the given comparison operation, in lanes selected by a mask.IntVector.compare(VectorOperators.Comparison op, Vector<Integer> v, VectorMask<Integer> m)
Tests this vector by comparing it with another input vector, according to the given comparison operation, in lanes selected by a mask.IntVector.div(int e, VectorMask<Integer> m)
Divides this vector by the broadcast of an input scalar, selecting lane elements controlled by a mask.Divides this vector by a second input vector.IntVector.div(Vector<Integer> v, VectorMask<Integer> m)
Divides this vector by a second input vector under the control of a mask.IntVector.div(Vector<Integer> v, VectorMask<Integer> m)
Divides this vector by a second input vector under the control of a mask.Tests if this vector is equal to another input vector.static IntVector
IntVector.fromArray(VectorSpecies<Integer> species, int[] a, int offset)
Loads a vector from an array of typeint[]
starting at an offset.static IntVector
IntVector.fromArray(VectorSpecies<Integer> species, int[] a, int offset, int[] indexMap, int mapOffset)
Gathers a new vector composed of elements from an array of typeint[]
, using indexes obtained by adding a fixedoffset
to a series of secondary offsets from an index map.static IntVector
IntVector.fromArray(VectorSpecies<Integer> species, int[] a, int offset, int[] indexMap, int mapOffset, VectorMask<Integer> m)
Gathers a new vector composed of elements from an array of typeint[]
, under the control of a mask, and using indexes obtained by adding a fixedoffset
to a series of secondary offsets from an index map.static IntVector
IntVector.fromArray(VectorSpecies<Integer> species, int[] a, int offset, int[] indexMap, int mapOffset, VectorMask<Integer> m)
Gathers a new vector composed of elements from an array of typeint[]
, under the control of a mask, and using indexes obtained by adding a fixedoffset
to a series of secondary offsets from an index map.static IntVector
IntVector.fromArray(VectorSpecies<Integer> species, int[] a, int offset, VectorMask<Integer> m)
Loads a vector from an array of typeint[]
starting at an offset and using a mask.static IntVector
IntVector.fromArray(VectorSpecies<Integer> species, int[] a, int offset, VectorMask<Integer> m)
Loads a vector from an array of typeint[]
starting at an offset and using a mask.static IntVector
IntVector.fromByteArray(VectorSpecies<Integer> species, byte[] a, int offset, ByteOrder bo)
Loads a vector from a byte array starting at an offset.static IntVector
IntVector.fromByteArray(VectorSpecies<Integer> species, byte[] a, int offset, ByteOrder bo, VectorMask<Integer> m)
Loads a vector from a byte array starting at an offset and using a mask.static IntVector
IntVector.fromByteArray(VectorSpecies<Integer> species, byte[] a, int offset, ByteOrder bo, VectorMask<Integer> m)
Loads a vector from a byte array starting at an offset and using a mask.static IntVector
IntVector.fromByteBuffer(VectorSpecies<Integer> species, ByteBuffer bb, int offset, ByteOrder bo)
Loads a vector from a byte buffer starting at an offset into the byte buffer.static IntVector
IntVector.fromByteBuffer(VectorSpecies<Integer> species, ByteBuffer bb, int offset, ByteOrder bo, VectorMask<Integer> m)
Loads a vector from a byte buffer starting at an offset into the byte buffer and using a mask.static IntVector
IntVector.fromByteBuffer(VectorSpecies<Integer> species, ByteBuffer bb, int offset, ByteOrder bo, VectorMask<Integer> m)
Loads a vector from a byte buffer starting at an offset into the byte buffer and using a mask.void
IntVector.intoArray(int[] a, int offset, int[] indexMap, int mapOffset, VectorMask<Integer> m)
Scatters this vector into an array of typeint[]
, under the control of a mask, and using indexes obtained by adding a fixedoffset
to a series of secondary offsets from an index map.void
IntVector.intoArray(int[] a, int offset, VectorMask<Integer> m)
Stores this vector into an array ofint
starting at offset and using a mask.void
IntVector.intoByteArray(byte[] a, int offset, ByteOrder bo, VectorMask<Integer> m)
Stores this vector into a byte array starting at an offset using explicit byte order and a mask.void
IntVector.intoByteBuffer(ByteBuffer bb, int offset, ByteOrder bo, VectorMask<Integer> m)
Stores this vector into a byte buffer starting at an offset using explicit byte order and a mask.IntVector.lanewise(VectorOperators.Binary op, int e, VectorMask<Integer> m)
Combines the lane values of this vector with the value of a broadcast scalar, with selection of lane elements controlled by a mask.IntVector.lanewise(VectorOperators.Binary op, long e, VectorMask<Integer> m)
Combines the corresponding lane values of this vector with those of a second input vector, with selection of lane elements controlled by a mask.abstract IntVector
IntVector.lanewise(VectorOperators.Binary op, Vector<Integer> v)
Combines the corresponding lane values of this vector with those of a second input vector.IntVector.lanewise(VectorOperators.Binary op, Vector<Integer> v, VectorMask<Integer> m)
Combines the corresponding lane values of this vector with those of a second input vector, with selection of lane elements controlled by a mask.IntVector.lanewise(VectorOperators.Binary op, Vector<Integer> v, VectorMask<Integer> m)
Combines the corresponding lane values of this vector with those of a second input vector, with selection of lane elements controlled by a mask.IntVector.lanewise(VectorOperators.Ternary op, int e1, int e2, VectorMask<Integer> m)
Combines the lane values of this vector with the values of two broadcast scalars, with selection of lane elements controlled by a mask.IntVector.lanewise(VectorOperators.Ternary op, int e1, Vector<Integer> v2)
Combines the lane values of this vector with the values of another vector and a broadcast scalar.IntVector.lanewise(VectorOperators.Ternary op, int e1, Vector<Integer> v2, VectorMask<Integer> m)
Combines the lane values of this vector with the values of another vector and a broadcast scalar, with selection of lane elements controlled by a mask.IntVector.lanewise(VectorOperators.Ternary op, int e1, Vector<Integer> v2, VectorMask<Integer> m)
Combines the lane values of this vector with the values of another vector and a broadcast scalar, with selection of lane elements controlled by a mask.IntVector.lanewise(VectorOperators.Ternary op, Vector<Integer> v1, int e2)
Combines the lane values of this vector with the values of another vector and a broadcast scalar.IntVector.lanewise(VectorOperators.Ternary op, Vector<Integer> v1, int e2, VectorMask<Integer> m)
Combines the lane values of this vector with the values of another vector and a broadcast scalar, with selection of lane elements controlled by a mask.IntVector.lanewise(VectorOperators.Ternary op, Vector<Integer> v1, int e2, VectorMask<Integer> m)
Combines the lane values of this vector with the values of another vector and a broadcast scalar, with selection of lane elements controlled by a mask.abstract IntVector
Combines the corresponding lane values of this vector with the lanes of a second and a third input vector.IntVector.lanewise(VectorOperators.Ternary op, Vector<Integer> v1, Vector<Integer> v2, VectorMask<Integer> m)
Combines the corresponding lane values of this vector with the lanes of a second and a third input vector, with selection of lane elements controlled by a mask.IntVector.lanewise(VectorOperators.Ternary op, Vector<Integer> v1, Vector<Integer> v2, VectorMask<Integer> m)
Combines the corresponding lane values of this vector with the lanes of a second and a third input vector, with selection of lane elements controlled by a mask.IntVector.lanewise(VectorOperators.Unary op, VectorMask<Integer> m)
Operates on the lane values of this vector, with selection of lane elements controlled by a mask.Tests if this vector is less than another input vector.Computes the larger of this vector and a second input vector.Computes the smaller of this vector and a second input vector.IntVector.mul(int e, VectorMask<Integer> m)
Multiplies this vector by the broadcast of an input scalar, selecting lane elements controlled by a mask.Multiplies this vector by a second input vector.IntVector.mul(Vector<Integer> v, VectorMask<Integer> m)
Multiplies this vector by a second input vector under the control of a mask.IntVector.mul(Vector<Integer> v, VectorMask<Integer> m)
Multiplies this vector by a second input vector under the control of a mask.Computes the bitwise logical disjunction (|
) of this vector and a second input vector.abstract IntVector
IntVector.rearrange(VectorShuffle<Integer> m)
Rearranges the lane elements of this vector, selecting lanes under the control of a specific shuffle.abstract IntVector
IntVector.rearrange(VectorShuffle<Integer> s, Vector<Integer> v)
Rearranges the lane elements of two vectors, selecting lanes under the control of a specific shuffle, using both normal and exceptional indexes in the shuffle to steer data.abstract IntVector
IntVector.rearrange(VectorShuffle<Integer> s, Vector<Integer> v)
Rearranges the lane elements of two vectors, selecting lanes under the control of a specific shuffle, using both normal and exceptional indexes in the shuffle to steer data.abstract IntVector
IntVector.rearrange(VectorShuffle<Integer> s, VectorMask<Integer> m)
Rearranges the lane elements of this vector, selecting lanes under the control of a specific shuffle and a mask.abstract IntVector
IntVector.rearrange(VectorShuffle<Integer> s, VectorMask<Integer> m)
Rearranges the lane elements of this vector, selecting lanes under the control of a specific shuffle and a mask.abstract int
IntVector.reduceLanes(VectorOperators.Associative op, VectorMask<Integer> m)
Returns a value accumulated from selected lanes of this vector, controlled by a mask.abstract IntVector
IntVector.selectFrom(Vector<Integer> v)
Using index values stored in the lanes of this vector, assemble values stored in second vectorv
.abstract IntVector
IntVector.selectFrom(Vector<Integer> s, VectorMask<Integer> m)
Using index values stored in the lanes of this vector, assemble values stored in second vector, under the control of a mask.abstract IntVector
IntVector.selectFrom(Vector<Integer> s, VectorMask<Integer> m)
Using index values stored in the lanes of this vector, assemble values stored in second vector, under the control of a mask.abstract IntVector
Slices a segment of adjacent lanes, starting at a givenorigin
lane in the current vector, and continuing (as needed) into an immediately following vector.IntVector.slice(int origin, Vector<Integer> w, VectorMask<Integer> m)
Slices a segment of adjacent lanes under the control of a mask, starting at a givenorigin
lane in the current vector, and continuing (as needed) into an immediately following vector.IntVector.slice(int origin, Vector<Integer> w, VectorMask<Integer> m)
Slices a segment of adjacent lanes under the control of a mask, starting at a givenorigin
lane in the current vector, and continuing (as needed) into an immediately following vector.IntVector.sub(int e, VectorMask<Integer> m)
Subtracts an input scalar from this vector under the control of a mask.Subtracts a second input vector from this vector.IntVector.sub(Vector<Integer> v, VectorMask<Integer> m)
Subtracts a second input vector from this vector under the control of a mask.IntVector.sub(Vector<Integer> v, VectorMask<Integer> m)
Subtracts a second input vector from this vector under the control of a mask.IntVector.test(VectorOperators.Test op, VectorMask<Integer> m)
Test selected lanes of this vector, according to the given operation.abstract IntVector
Reverses a slice(), inserting the current vector as a slice within another "background" input vector, which is regarded as one or the other input to a hypothetical subsequentslice()
operation.abstract IntVector
IntVector.unslice(int origin, Vector<Integer> w, int part, VectorMask<Integer> m)
Reverses a slice(), inserting (under the control of a mask) the current vector as a slice within another "background" input vector, which is regarded as one or the other input to a hypothetical subsequentslice()
operation.abstract IntVector
IntVector.unslice(int origin, Vector<Integer> w, int part, VectorMask<Integer> m)
Reverses a slice(), inserting (under the control of a mask) the current vector as a slice within another "background" input vector, which is regarded as one or the other input to a hypothetical subsequentslice()
operation.static IntVector
IntVector.zero(VectorSpecies<Integer> species)
Returns a vector of the given species where all lane elements are set to zero, the default primitive value. -
Uses of Integer in jdk.jshell
Modifier and TypeMethodDescriptionJShell.Builder.idGenerator(BiFunction<Snippet,Integer,String> generator)
Sets the generator of identifying names for Snippets. -
Uses of Integer in jdk.net
Modifier and TypeFieldDescriptionstatic SocketOption<Integer>
ExtendedSocketOptions.SO_INCOMING_NAPI_ID
Identifies the receive queue that the last incoming packet for the socket was received on.static SocketOption<Integer>
ExtendedSocketOptions.TCP_KEEPCOUNT
Keep-Alive retransmission maximum limit.static SocketOption<Integer>
ExtendedSocketOptions.TCP_KEEPIDLE
Keep-Alive idle time.static SocketOption<Integer>
ExtendedSocketOptions.TCP_KEEPINTERVAL
Keep-Alive retransmission interval time.