Uses of Class
jdk.incubator.vector.ByteVector

Packages that use ByteVector
Package
Description

Incubating Feature. Will be removed in a future release.
  • Uses of ByteVector in jdk.incubator.vector

    Methods in jdk.incubator.vector that return ByteVector
    Modifier and Type
    Method
    Description
    ByteVector.abs()
    Returns the absolute value of this vector.
    ByteVector.add(byte e)
    Adds this vector to the broadcast of an input scalar.
    ByteVector.add(byte e, VectorMask<Byte> m)
    Adds this vector to the broadcast of an input scalar, selecting lane elements controlled by a mask.
    ByteVector.add(Vector<Byte> v)
    Adds this vector to a second input vector.
    ByteVector.add(Vector<Byte> v, VectorMask<Byte> m)
    Adds this vector to a second input vector, selecting lanes under the control of a mask.
    abstract ByteVector
    ByteVector.addIndex(int scale)
    Adds the lanes of this vector to their corresponding lane numbers, scaled by a given constant.
    ByteVector.and(byte e)
    Computes the bitwise logical conjunction (&) of this vector and a scalar.
    ByteVector.and(Vector<Byte> v)
    Computes the bitwise logical conjunction (&) of this vector and a second input vector.
    ByteVector.bitwiseBlend(byte bits, byte mask)
    Blends together the bits of a vector and a scalar under the control of another scalar, which supplies mask bits.
    ByteVector.bitwiseBlend(byte bits, Vector<Byte> mask)
    Blends together the bits of a vector and a scalar under the control of another vector, which supplies mask bits.
    ByteVector.bitwiseBlend(Vector<Byte> bits, byte mask)
    Blends together the bits of two vectors under the control of a scalar, which supplies mask bits.
    ByteVector.bitwiseBlend(Vector<Byte> bits, Vector<Byte> mask)
    Blends together the bits of two vectors under the control of a third, which supplies mask bits.
    ByteVector.blend(byte e, VectorMask<Byte> m)
    Replaces selected lanes of this vector with a scalar value under the control of a mask.
    ByteVector.blend(long e, VectorMask<Byte> m)
    Replaces selected lanes of this vector with a scalar value under the control of a mask.
    abstract ByteVector
    ByteVector.blend(Vector<Byte> v, VectorMask<Byte> m)
    Replaces selected lanes of this vector with corresponding lanes from a second input vector under the control of a mask.
    abstract ByteVector
    ByteVector.broadcast(byte e)
    Returns a vector of the same species as this one where all lane elements are set to the primitive value e.
    abstract ByteVector
    ByteVector.broadcast(long e)
    Returns a vector of the same species as this one where all lane elements are set to the primitive value e.
    static ByteVector
    ByteVector.broadcast(VectorSpecies<Byte> species, byte e)
    Returns a vector of the given species where all lane elements are set to the primitive value e.
    static ByteVector
    ByteVector.broadcast(VectorSpecies<Byte> species, long e)
    Returns a vector of the given species where all lane elements are set to the primitive value e.
    ByteVector.div(byte e)
    Divides this vector by the broadcast of an input scalar.
    ByteVector.div(byte e, VectorMask<Byte> m)
    Divides this vector by the broadcast of an input scalar, selecting lane elements controlled by a mask.
    ByteVector.div(Vector<Byte> v)
    Divides this vector by a second input vector.
    ByteVector.div(Vector<Byte> v, VectorMask<Byte> m)
    Divides this vector by a second input vector under the control of a mask.
    static ByteVector
    ByteVector.fromArray(VectorSpecies<Byte> species, byte[] a, int offset)
    Loads a vector from an array of type byte[] starting at an offset.
    static ByteVector
    ByteVector.fromArray(VectorSpecies<Byte> species, byte[] a, int offset, int[] indexMap, int mapOffset)
    Gathers a new vector composed of elements from an array of type byte[], using indexes obtained by adding a fixed offset to a series of secondary offsets from an index map.
    static ByteVector
    ByteVector.fromArray(VectorSpecies<Byte> species, byte[] a, int offset, int[] indexMap, int mapOffset, VectorMask<Byte> m)
    Gathers a new vector composed of elements from an array of type byte[], under the control of a mask, and using indexes obtained by adding a fixed offset to a series of secondary offsets from an index map.
    static ByteVector
    ByteVector.fromArray(VectorSpecies<Byte> species, byte[] a, int offset, VectorMask<Byte> m)
    Loads a vector from an array of type byte[] starting at an offset and using a mask.
    static ByteVector
    ByteVector.fromBooleanArray(VectorSpecies<Byte> species, boolean[] a, int offset)
    Loads a vector from an array of type boolean[] starting at an offset.
    static ByteVector
    ByteVector.fromBooleanArray(VectorSpecies<Byte> species, boolean[] a, int offset, int[] indexMap, int mapOffset)
    Gathers a new vector composed of elements from an array of type boolean[], using indexes obtained by adding a fixed offset to a series of secondary offsets from an index map.
    static ByteVector
    ByteVector.fromBooleanArray(VectorSpecies<Byte> species, boolean[] a, int offset, int[] indexMap, int mapOffset, VectorMask<Byte> m)
    Gathers a new vector composed of elements from an array of type boolean[], under the control of a mask, and using indexes obtained by adding a fixed offset to a series of secondary offsets from an index map.
    static ByteVector
    ByteVector.fromBooleanArray(VectorSpecies<Byte> species, boolean[] a, int offset, VectorMask<Byte> m)
    Loads a vector from an array of type boolean[] starting at an offset and using a mask.
    static ByteVector
    ByteVector.fromByteArray(VectorSpecies<Byte> species, byte[] a, int offset, ByteOrder bo)
    Loads a vector from a byte array starting at an offset.
    static ByteVector
    ByteVector.fromByteArray(VectorSpecies<Byte> species, byte[] a, int offset, ByteOrder bo, VectorMask<Byte> m)
    Loads a vector from a byte array starting at an offset and using a mask.
    static ByteVector
    ByteVector.fromByteBuffer(VectorSpecies<Byte> species, ByteBuffer bb, int offset, ByteOrder bo)
    Loads a vector from a byte buffer starting at an offset into the byte buffer.
    static ByteVector
    ByteVector.fromByteBuffer(VectorSpecies<Byte> species, ByteBuffer bb, int offset, ByteOrder bo, VectorMask<Byte> m)
    Loads a vector from a byte buffer starting at an offset into the byte buffer and using a mask.
    ByteVector.lanewise(VectorOperators.Binary op, byte e)
    Combines the lane values of this vector with the value of a broadcast scalar.
    ByteVector.lanewise(VectorOperators.Binary op, byte e, VectorMask<Byte> m)
    Combines the lane values of this vector with the value of a broadcast scalar, with selection of lane elements controlled by a mask.
    ByteVector.lanewise(VectorOperators.Binary op, long e)
    Combines the lane values of this vector with the value of a broadcast scalar.
    ByteVector.lanewise(VectorOperators.Binary op, long e, VectorMask<Byte> 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 ByteVector
    Combines the corresponding lane values of this vector with those of a second input vector.
    Combines the corresponding lane values of this vector with those of a second input vector, with selection of lane elements controlled by a mask.
    ByteVector.lanewise(VectorOperators.Ternary op, byte e1, byte e2)
    Combines the lane values of this vector with the values of two broadcast scalars.
    ByteVector.lanewise(VectorOperators.Ternary op, byte e1, byte e2, VectorMask<Byte> m)
    Combines the lane values of this vector with the values of two broadcast scalars, with selection of lane elements controlled by a mask.
    ByteVector.lanewise(VectorOperators.Ternary op, byte e1, Vector<Byte> v2)
    Combines the lane values of this vector with the values of another vector and a broadcast scalar.
    ByteVector.lanewise(VectorOperators.Ternary op, byte e1, Vector<Byte> v2, VectorMask<Byte> 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.
    ByteVector.lanewise(VectorOperators.Ternary op, Vector<Byte> v1, byte e2)
    Combines the lane values of this vector with the values of another vector and a broadcast scalar.
    ByteVector.lanewise(VectorOperators.Ternary op, Vector<Byte> v1, byte e2, VectorMask<Byte> 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 ByteVector
    Combines the corresponding lane values of this vector with the lanes of a second and a third input vector.
    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.
    abstract ByteVector
    Operates on the lane values of this vector.
    Operates on the lane values of this vector, with selection of lane elements controlled by a mask.
    ByteVector.max(byte e)
    Computes the larger of this vector and the broadcast of an input scalar.
    ByteVector.max(Vector<Byte> v)
    Computes the larger of this vector and a second input vector.
    ByteVector.min(byte e)
    Computes the smaller of this vector and the broadcast of an input scalar.
    ByteVector.min(Vector<Byte> v)
    Computes the smaller of this vector and a second input vector.
    ByteVector.mul(byte e)
    Multiplies this vector by the broadcast of an input scalar.
    ByteVector.mul(byte e, VectorMask<Byte> m)
    Multiplies this vector by the broadcast of an input scalar, selecting lane elements controlled by a mask.
    ByteVector.mul(Vector<Byte> v)
    Multiplies this vector by a second input vector.
    ByteVector.mul(Vector<Byte> v, VectorMask<Byte> m)
    Multiplies this vector by a second input vector under the control of a mask.
    ByteVector.neg()
    Negates this vector.
    ByteVector.not()
    Computes the bitwise logical complement (~) of this vector.
    ByteVector.or(byte e)
    Computes the bitwise logical disjunction (|) of this vector and a scalar.
    ByteVector.or(Vector<Byte> v)
    Computes the bitwise logical disjunction (|) of this vector and a second input vector.
    abstract ByteVector
    ByteVector.rearrange(VectorShuffle<Byte> m)
    Rearranges the lane elements of this vector, selecting lanes under the control of a specific shuffle.
    abstract ByteVector
    ByteVector.rearrange(VectorShuffle<Byte> s, Vector<Byte> 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 ByteVector
    Rearranges the lane elements of this vector, selecting lanes under the control of a specific shuffle and a mask.
    ByteVector.reinterpretAsBytes()
    Views this vector as a vector of the same shape and contents but a lane type of byte, where the bytes are extracted from the lanes according to little-endian order.
    DoubleVector.reinterpretAsBytes()
    Views this vector as a vector of the same shape and contents but a lane type of byte, where the bytes are extracted from the lanes according to little-endian order.
    FloatVector.reinterpretAsBytes()
    Views this vector as a vector of the same shape and contents but a lane type of byte, where the bytes are extracted from the lanes according to little-endian order.
    IntVector.reinterpretAsBytes()
    Views this vector as a vector of the same shape and contents but a lane type of byte, where the bytes are extracted from the lanes according to little-endian order.
    LongVector.reinterpretAsBytes()
    Views this vector as a vector of the same shape and contents but a lane type of byte, where the bytes are extracted from the lanes according to little-endian order.
    ShortVector.reinterpretAsBytes()
    Views this vector as a vector of the same shape and contents but a lane type of byte, where the bytes are extracted from the lanes according to little-endian order.
    abstract ByteVector
    Views this vector as a vector of the same shape and contents but a lane type of byte, where the bytes are extracted from the lanes according to little-endian order.
    abstract ByteVector
    ByteVector.selectFrom(Vector<Byte> v)
    Using index values stored in the lanes of this vector, assemble values stored in second vector v.
    abstract ByteVector
    ByteVector.selectFrom(Vector<Byte> s, VectorMask<Byte> m)
    Using index values stored in the lanes of this vector, assemble values stored in second vector, under the control of a mask.
    abstract ByteVector
    ByteVector.slice(int origin)
    Slices a segment of adjacent lanes, starting at a given origin lane in the current vector.
    abstract ByteVector
    ByteVector.slice(int origin, Vector<Byte> v1)
    Slices a segment of adjacent lanes, starting at a given origin lane in the current vector, and continuing (as needed) into an immediately following vector.
    ByteVector.slice(int origin, Vector<Byte> w, VectorMask<Byte> m)
    Slices a segment of adjacent lanes under the control of a mask, starting at a given origin lane in the current vector, and continuing (as needed) into an immediately following vector.
    ByteVector.sub(byte e)
    Subtracts an input scalar from this vector.
    ByteVector.sub(byte e, VectorMask<Byte> m)
    Subtracts an input scalar from this vector under the control of a mask.
    ByteVector.sub(Vector<Byte> v)
    Subtracts a second input vector from this vector.
    ByteVector.sub(Vector<Byte> v, VectorMask<Byte> m)
    Subtracts a second input vector from this vector under the control of a mask.
    abstract ByteVector
    ByteVector.unslice(int origin)
    Reverses a slice(), inserting the current vector as a slice within a "background" input of zero lane values.
    abstract ByteVector
    ByteVector.unslice(int origin, Vector<Byte> w, int part)
    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 subsequent slice() operation.
    abstract ByteVector
    ByteVector.unslice(int origin, Vector<Byte> w, int part, VectorMask<Byte> 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 subsequent slice() operation.
    ByteVector.viewAsIntegralLanes()
    Views this vector as a vector of the same shape, length, and contents, but a lane type that is not a floating-point type.
    abstract ByteVector
    ByteVector.withLane(int i, byte e)
    Replaces the lane element of this vector at lane index i with value e.
    static ByteVector
    ByteVector.zero(VectorSpecies<Byte> species)
    Returns a vector of the given species where all lane elements are set to zero, the default primitive value.