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src/jdk.incubator.vector/share/classes/jdk/incubator/vector/LongVector.java

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*** 110,120 **** * @return a zero vector of given species */ @ForceInline @SuppressWarnings("unchecked") public static LongVector zero(VectorSpecies<Long> species) { ! return VectorIntrinsics.broadcastCoerced((Class<LongVector>) species.boxType(), long.class, species.length(), 0, species, ((bits, s) -> ((LongSpecies)s).op(i -> (long)bits))); } /** --- 110,120 ---- * @return a zero vector of given species */ @ForceInline @SuppressWarnings("unchecked") public static LongVector zero(VectorSpecies<Long> species) { ! return VectorIntrinsics.broadcastCoerced((Class<LongVector>) species.vectorType(), long.class, species.length(), 0, species, ((bits, s) -> ((LongSpecies)s).op(i -> (long)bits))); } /**
*** 140,150 **** @ForceInline @SuppressWarnings("unchecked") public static LongVector fromByteArray(VectorSpecies<Long> species, byte[] a, int offset) { Objects.requireNonNull(a); offset = VectorIntrinsics.checkIndex(offset, a.length, species.bitSize() / Byte.SIZE); ! return VectorIntrinsics.load((Class<LongVector>) species.boxType(), long.class, species.length(), a, ((long) offset) + Unsafe.ARRAY_BYTE_BASE_OFFSET, a, offset, species, (c, idx, s) -> { ByteBuffer bbc = ByteBuffer.wrap(c, idx, a.length - idx).order(ByteOrder.nativeOrder()); LongBuffer tb = bbc.asLongBuffer(); --- 140,150 ---- @ForceInline @SuppressWarnings("unchecked") public static LongVector fromByteArray(VectorSpecies<Long> species, byte[] a, int offset) { Objects.requireNonNull(a); offset = VectorIntrinsics.checkIndex(offset, a.length, species.bitSize() / Byte.SIZE); ! return VectorIntrinsics.load((Class<LongVector>) species.vectorType(), long.class, species.length(), a, ((long) offset) + Unsafe.ARRAY_BYTE_BASE_OFFSET, a, offset, species, (c, idx, s) -> { ByteBuffer bbc = ByteBuffer.wrap(c, idx, a.length - idx).order(ByteOrder.nativeOrder()); LongBuffer tb = bbc.asLongBuffer();
*** 198,208 **** @ForceInline @SuppressWarnings("unchecked") public static LongVector fromArray(VectorSpecies<Long> species, long[] a, int offset){ Objects.requireNonNull(a); offset = VectorIntrinsics.checkIndex(offset, a.length, species.length()); ! return VectorIntrinsics.load((Class<LongVector>) species.boxType(), long.class, species.length(), a, (((long) offset) << ARRAY_SHIFT) + Unsafe.ARRAY_LONG_BASE_OFFSET, a, offset, species, (c, idx, s) -> ((LongSpecies)s).op(n -> c[idx + n])); } --- 198,208 ---- @ForceInline @SuppressWarnings("unchecked") public static LongVector fromArray(VectorSpecies<Long> species, long[] a, int offset){ Objects.requireNonNull(a); offset = VectorIntrinsics.checkIndex(offset, a.length, species.length()); ! return VectorIntrinsics.load((Class<LongVector>) species.vectorType(), long.class, species.length(), a, (((long) offset) << ARRAY_SHIFT) + Unsafe.ARRAY_LONG_BASE_OFFSET, a, offset, species, (c, idx, s) -> ((LongSpecies)s).op(n -> c[idx + n])); }
*** 264,275 **** // Index vector: vix[0:n] = k -> a_offset + indexMap[i_offset + k] IntVector vix = IntVector.fromArray(IntVector.species(species.indexShape()), indexMap, i_offset).add(a_offset); vix = VectorIntrinsics.checkIndex(vix, a.length); ! return VectorIntrinsics.loadWithMap((Class<LongVector>) species.boxType(), long.class, species.length(), ! IntVector.species(species.indexShape()).boxType(), a, Unsafe.ARRAY_LONG_BASE_OFFSET, vix, a, a_offset, indexMap, i_offset, species, (long[] c, int idx, int[] iMap, int idy, VectorSpecies<Long> s) -> ((LongSpecies)s).op(n -> c[idx + iMap[idy+n]])); } --- 264,275 ---- // Index vector: vix[0:n] = k -> a_offset + indexMap[i_offset + k] IntVector vix = IntVector.fromArray(IntVector.species(species.indexShape()), indexMap, i_offset).add(a_offset); vix = VectorIntrinsics.checkIndex(vix, a.length); ! return VectorIntrinsics.loadWithMap((Class<LongVector>) species.vectorType(), long.class, species.length(), ! IntVector.species(species.indexShape()).vectorType(), a, Unsafe.ARRAY_LONG_BASE_OFFSET, vix, a, a_offset, indexMap, i_offset, species, (long[] c, int idx, int[] iMap, int idy, VectorSpecies<Long> s) -> ((LongSpecies)s).op(n -> c[idx + iMap[idy+n]])); }
*** 334,344 **** public static LongVector fromByteBuffer(VectorSpecies<Long> species, ByteBuffer bb, int offset) { if (bb.order() != ByteOrder.nativeOrder()) { throw new IllegalArgumentException(); } offset = VectorIntrinsics.checkIndex(offset, bb.limit(), species.bitSize() / Byte.SIZE); ! return VectorIntrinsics.load((Class<LongVector>) species.boxType(), long.class, species.length(), U.getReference(bb, BYTE_BUFFER_HB), U.getLong(bb, BUFFER_ADDRESS) + offset, bb, offset, species, (c, idx, s) -> { ByteBuffer bbc = c.duplicate().position(idx).order(ByteOrder.nativeOrder()); LongBuffer tb = bbc.asLongBuffer(); --- 334,344 ---- public static LongVector fromByteBuffer(VectorSpecies<Long> species, ByteBuffer bb, int offset) { if (bb.order() != ByteOrder.nativeOrder()) { throw new IllegalArgumentException(); } offset = VectorIntrinsics.checkIndex(offset, bb.limit(), species.bitSize() / Byte.SIZE); ! return VectorIntrinsics.load((Class<LongVector>) species.vectorType(), long.class, species.length(), U.getReference(bb, BYTE_BUFFER_HB), U.getLong(bb, BUFFER_ADDRESS) + offset, bb, offset, species, (c, idx, s) -> { ByteBuffer bbc = c.duplicate().position(idx).order(ByteOrder.nativeOrder()); LongBuffer tb = bbc.asLongBuffer();
*** 398,408 **** */ @ForceInline @SuppressWarnings("unchecked") public static LongVector broadcast(VectorSpecies<Long> species, long e) { return VectorIntrinsics.broadcastCoerced( ! (Class<LongVector>) species.boxType(), long.class, species.length(), e, species, ((bits, sp) -> ((LongSpecies)sp).op(i -> (long)bits))); } /** --- 398,408 ---- */ @ForceInline @SuppressWarnings("unchecked") public static LongVector broadcast(VectorSpecies<Long> species, long e) { return VectorIntrinsics.broadcastCoerced( ! (Class<LongVector>) species.vectorType(), long.class, species.length(), e, species, ((bits, sp) -> ((LongSpecies)sp).op(i -> (long)bits))); } /**
*** 422,432 **** @ForceInline @SuppressWarnings("unchecked") public static LongVector scalars(VectorSpecies<Long> species, long... es) { Objects.requireNonNull(es); int ix = VectorIntrinsics.checkIndex(0, es.length, species.length()); ! return VectorIntrinsics.load((Class<LongVector>) species.boxType(), long.class, species.length(), es, Unsafe.ARRAY_LONG_BASE_OFFSET, es, ix, species, (c, idx, sp) -> ((LongSpecies)sp).op(n -> c[idx + n])); } --- 422,432 ---- @ForceInline @SuppressWarnings("unchecked") public static LongVector scalars(VectorSpecies<Long> species, long... es) { Objects.requireNonNull(es); int ix = VectorIntrinsics.checkIndex(0, es.length, species.length()); ! return VectorIntrinsics.load((Class<LongVector>) species.vectorType(), long.class, species.length(), es, Unsafe.ARRAY_LONG_BASE_OFFSET, es, ix, species, (c, idx, sp) -> ((LongSpecies)sp).op(n -> c[idx + n])); }
*** 800,828 **** /** * {@inheritDoc} */ @Override ! public abstract LongVector rotateEL(int i); /** * {@inheritDoc} */ @Override ! public abstract LongVector rotateER(int i); /** * {@inheritDoc} */ @Override ! public abstract LongVector shiftEL(int i); /** * {@inheritDoc} */ @Override ! public abstract LongVector shiftER(int i); /** * Bitwise ANDs this vector with an input vector. --- 800,828 ---- /** * {@inheritDoc} */ @Override ! public abstract LongVector rotateLanesLeft(int i); /** * {@inheritDoc} */ @Override ! public abstract LongVector rotateLanesRight(int i); /** * {@inheritDoc} */ @Override ! public abstract LongVector shiftLanesLeft(int i); /** * {@inheritDoc} */ @Override ! public abstract LongVector shiftLanesRight(int i); /** * Bitwise ANDs this vector with an input vector.
*** 997,1170 **** /** * Logically left shifts this vector by the broadcast of an input scalar. * <p> * This is a lane-wise binary operation which applies the primitive logical left shift ! * operation ({@code <<}) to each lane. * * @param s the input scalar; the number of the bits to left shift * @return the result of logically left shifting left this vector by the * broadcast of an input scalar */ ! public abstract LongVector shiftL(int s); /** * Logically left shifts this vector by the broadcast of an input scalar, * selecting lane elements controlled by a mask. * <p> * This is a lane-wise binary operation which applies the primitive logical left shift ! * operation ({@code <<}) to each lane. * * @param s the input scalar; the number of the bits to left shift * @param m the mask controlling lane selection ! * @return the result of logically left shifting this vector by the * broadcast of an input scalar */ ! public abstract LongVector shiftL(int s, VectorMask<Long> m); /** * Logically left shifts this vector by an input vector. * <p> * This is a lane-wise binary operation which applies the primitive logical left shift ! * operation ({@code <<}) to each lane. * * @param v the input vector * @return the result of logically left shifting this vector by the input * vector */ ! public abstract LongVector shiftL(Vector<Long> v); /** * Logically left shifts this vector by an input vector, selecting lane * elements controlled by a mask. * <p> * This is a lane-wise binary operation which applies the primitive logical left shift ! * operation ({@code <<}) to each lane. * * @param v the input vector * @param m the mask controlling lane selection * @return the result of logically left shifting this vector by the input * vector */ ! public LongVector shiftL(Vector<Long> v, VectorMask<Long> m) { ! return bOp(v, m, (i, a, b) -> (long) (a << b)); } // logical, or unsigned, shift right /** * Logically right shifts (or unsigned right shifts) this vector by the * broadcast of an input scalar. * <p> * This is a lane-wise binary operation which applies the primitive logical right shift ! * operation ({@code >>>}) to each lane. * * @param s the input scalar; the number of the bits to right shift * @return the result of logically right shifting this vector by the * broadcast of an input scalar */ ! public abstract LongVector shiftR(int s); /** * Logically right shifts (or unsigned right shifts) this vector by the * broadcast of an input scalar, selecting lane elements controlled by a * mask. * <p> * This is a lane-wise binary operation which applies the primitive logical right shift ! * operation ({@code >>>}) to each lane. * * @param s the input scalar; the number of the bits to right shift * @param m the mask controlling lane selection * @return the result of logically right shifting this vector by the * broadcast of an input scalar */ ! public abstract LongVector shiftR(int s, VectorMask<Long> m); /** * Logically right shifts (or unsigned right shifts) this vector by an * input vector. * <p> * This is a lane-wise binary operation which applies the primitive logical right shift ! * operation ({@code >>>}) to each lane. * * @param v the input vector * @return the result of logically right shifting this vector by the * input vector */ ! public abstract LongVector shiftR(Vector<Long> v); /** * Logically right shifts (or unsigned right shifts) this vector by an * input vector, selecting lane elements controlled by a mask. * <p> * This is a lane-wise binary operation which applies the primitive logical right shift ! * operation ({@code >>>}) to each lane. * * @param v the input vector * @param m the mask controlling lane selection * @return the result of logically right shifting this vector by the * input vector */ ! public LongVector shiftR(Vector<Long> v, VectorMask<Long> m) { ! return bOp(v, m, (i, a, b) -> (long) (a >>> b)); } /** * Arithmetically right shifts (or signed right shifts) this vector by the * broadcast of an input scalar. * <p> * This is a lane-wise binary operation which applies the primitive arithmetic right ! * shift operation ({@code >>}) to each lane. * * @param s the input scalar; the number of the bits to right shift * @return the result of arithmetically right shifting this vector by the * broadcast of an input scalar */ ! public abstract LongVector aShiftR(int s); /** * Arithmetically right shifts (or signed right shifts) this vector by the * broadcast of an input scalar, selecting lane elements controlled by a * mask. * <p> * This is a lane-wise binary operation which applies the primitive arithmetic right ! * shift operation ({@code >>}) to each lane. * * @param s the input scalar; the number of the bits to right shift * @param m the mask controlling lane selection * @return the result of arithmetically right shifting this vector by the * broadcast of an input scalar */ ! public abstract LongVector aShiftR(int s, VectorMask<Long> m); /** * Arithmetically right shifts (or signed right shifts) this vector by an * input vector. * <p> * This is a lane-wise binary operation which applies the primitive arithmetic right ! * shift operation ({@code >>}) to each lane. * * @param v the input vector * @return the result of arithmetically right shifting this vector by the * input vector */ ! public abstract LongVector aShiftR(Vector<Long> v); /** * Arithmetically right shifts (or signed right shifts) this vector by an * input vector, selecting lane elements controlled by a mask. * <p> * This is a lane-wise binary operation which applies the primitive arithmetic right ! * shift operation ({@code >>}) to each lane. * * @param v the input vector * @param m the mask controlling lane selection * @return the result of arithmetically right shifting this vector by the * input vector */ ! public LongVector aShiftR(Vector<Long> v, VectorMask<Long> m) { ! return bOp(v, m, (i, a, b) -> (long) (a >> b)); } /** * Rotates left this vector by the broadcast of an input scalar. * <p> --- 997,1182 ---- /** * Logically left shifts this vector by the broadcast of an input scalar. * <p> * This is a lane-wise binary operation which applies the primitive logical left shift ! * operation ({@code <<}) to each lane to left shift the ! * element by shift value as specified by the input scalar. * * @param s the input scalar; the number of the bits to left shift * @return the result of logically left shifting left this vector by the * broadcast of an input scalar */ ! public abstract LongVector shiftLeft(int s); /** * Logically left shifts this vector by the broadcast of an input scalar, * selecting lane elements controlled by a mask. * <p> * This is a lane-wise binary operation which applies the primitive logical left shift ! * operation ({@code <<}) to each lane to left shift the ! * element by shift value as specified by the input scalar. * * @param s the input scalar; the number of the bits to left shift * @param m the mask controlling lane selection ! * @return the result of logically left shifting left this vector by the * broadcast of an input scalar */ ! public abstract LongVector shiftLeft(int s, VectorMask<Long> m); /** * Logically left shifts this vector by an input vector. * <p> * This is a lane-wise binary operation which applies the primitive logical left shift ! * operation ({@code <<}) to each lane. For each lane of this vector, the ! * shift value is the corresponding lane of input vector. * * @param v the input vector * @return the result of logically left shifting this vector by the input * vector */ ! public abstract LongVector shiftLeft(Vector<Long> v); /** * Logically left shifts this vector by an input vector, selecting lane * elements controlled by a mask. * <p> * This is a lane-wise binary operation which applies the primitive logical left shift ! * operation ({@code <<}) to each lane. For each lane of this vector, the ! * shift value is the corresponding lane of input vector. * * @param v the input vector * @param m the mask controlling lane selection * @return the result of logically left shifting this vector by the input * vector */ ! public LongVector shiftLeft(Vector<Long> v, VectorMask<Long> m) { ! return blend(shiftLeft(v), m); } // logical, or unsigned, shift right /** * Logically right shifts (or unsigned right shifts) this vector by the * broadcast of an input scalar. * <p> * This is a lane-wise binary operation which applies the primitive logical right shift ! * operation ({@code >>>}) to each lane to logically right shift the ! * element by shift value as specified by the input scalar. * * @param s the input scalar; the number of the bits to right shift * @return the result of logically right shifting this vector by the * broadcast of an input scalar */ ! public abstract LongVector shiftRight(int s); /** * Logically right shifts (or unsigned right shifts) this vector by the * broadcast of an input scalar, selecting lane elements controlled by a * mask. * <p> * This is a lane-wise binary operation which applies the primitive logical right shift ! * operation ({@code >>}) to each lane to logically right shift the ! * element by shift value as specified by the input scalar. * * @param s the input scalar; the number of the bits to right shift * @param m the mask controlling lane selection * @return the result of logically right shifting this vector by the * broadcast of an input scalar */ ! public abstract LongVector shiftRight(int s, VectorMask<Long> m); /** * Logically right shifts (or unsigned right shifts) this vector by an * input vector. * <p> * This is a lane-wise binary operation which applies the primitive logical right shift ! * operation ({@code >>>}) to each lane. For each lane of this vector, the ! * shift value is the corresponding lane of input vector. * * @param v the input vector * @return the result of logically right shifting this vector by the * input vector */ ! public abstract LongVector shiftRight(Vector<Long> v); /** * Logically right shifts (or unsigned right shifts) this vector by an * input vector, selecting lane elements controlled by a mask. * <p> * This is a lane-wise binary operation which applies the primitive logical right shift ! * operation ({@code >>>}) to each lane. For each lane of this vector, the ! * shift value is the corresponding lane of input vector. * * @param v the input vector * @param m the mask controlling lane selection * @return the result of logically right shifting this vector by the * input vector */ ! public LongVector shiftRight(Vector<Long> v, VectorMask<Long> m) { ! return blend(shiftRight(v), m); } /** * Arithmetically right shifts (or signed right shifts) this vector by the * broadcast of an input scalar. * <p> * This is a lane-wise binary operation which applies the primitive arithmetic right ! * shift operation ({@code >>}) to each lane to arithmetically ! * right shift the element by shift value as specified by the input scalar. * * @param s the input scalar; the number of the bits to right shift * @return the result of arithmetically right shifting this vector by the * broadcast of an input scalar */ ! public abstract LongVector shiftArithmeticRight(int s); /** * Arithmetically right shifts (or signed right shifts) this vector by the * broadcast of an input scalar, selecting lane elements controlled by a * mask. * <p> * This is a lane-wise binary operation which applies the primitive arithmetic right ! * shift operation ({@code >>}) to each lane to arithmetically ! * right shift the element by shift value as specified by the input scalar. * * @param s the input scalar; the number of the bits to right shift * @param m the mask controlling lane selection * @return the result of arithmetically right shifting this vector by the * broadcast of an input scalar */ ! public abstract LongVector shiftArithmeticRight(int s, VectorMask<Long> m); /** * Arithmetically right shifts (or signed right shifts) this vector by an * input vector. * <p> * This is a lane-wise binary operation which applies the primitive arithmetic right ! * shift operation ({@code >>}) to each lane. For each lane of this vector, the ! * shift value is the corresponding lane of input vector. * * @param v the input vector * @return the result of arithmetically right shifting this vector by the * input vector */ ! public abstract LongVector shiftArithmeticRight(Vector<Long> v); /** * Arithmetically right shifts (or signed right shifts) this vector by an * input vector, selecting lane elements controlled by a mask. * <p> * This is a lane-wise binary operation which applies the primitive arithmetic right ! * shift operation ({@code >>}) to each lane. For each lane of this vector, the ! * shift value is the corresponding lane of input vector. * * @param v the input vector * @param m the mask controlling lane selection * @return the result of arithmetically right shifting this vector by the * input vector */ ! public LongVector shiftArithmeticRight(Vector<Long> v, VectorMask<Long> m) { ! return blend(shiftArithmeticRight(v), m); } /** * Rotates left this vector by the broadcast of an input scalar. * <p>
*** 1177,1188 **** * @param s the input scalar; the number of the bits to rotate left * @return the result of rotating left this vector by the broadcast of an * input scalar */ @ForceInline ! public final LongVector rotateL(int s) { ! return shiftL(s).or(shiftR(-s)); } /** * Rotates left this vector by the broadcast of an input scalar, selecting * lane elements controlled by a mask. --- 1189,1200 ---- * @param s the input scalar; the number of the bits to rotate left * @return the result of rotating left this vector by the broadcast of an * input scalar */ @ForceInline ! public final LongVector rotateLeft(int s) { ! return shiftLeft(s).or(shiftRight(-s)); } /** * Rotates left this vector by the broadcast of an input scalar, selecting * lane elements controlled by a mask.
*** 1197,1208 **** * @param m the mask controlling lane selection * @return the result of rotating left this vector by the broadcast of an * input scalar */ @ForceInline ! public final LongVector rotateL(int s, VectorMask<Long> m) { ! return shiftL(s, m).or(shiftR(-s, m), m); } /** * Rotates right this vector by the broadcast of an input scalar. * <p> --- 1209,1220 ---- * @param m the mask controlling lane selection * @return the result of rotating left this vector by the broadcast of an * input scalar */ @ForceInline ! public final LongVector rotateLeft(int s, VectorMask<Long> m) { ! return shiftLeft(s, m).or(shiftRight(-s, m), m); } /** * Rotates right this vector by the broadcast of an input scalar. * <p>
*** 1215,1226 **** * @param s the input scalar; the number of the bits to rotate right * @return the result of rotating right this vector by the broadcast of an * input scalar */ @ForceInline ! public final LongVector rotateR(int s) { ! return shiftR(s).or(shiftL(-s)); } /** * Rotates right this vector by the broadcast of an input scalar, selecting * lane elements controlled by a mask. --- 1227,1238 ---- * @param s the input scalar; the number of the bits to rotate right * @return the result of rotating right this vector by the broadcast of an * input scalar */ @ForceInline ! public final LongVector rotateRight(int s) { ! return shiftRight(s).or(shiftLeft(-s)); } /** * Rotates right this vector by the broadcast of an input scalar, selecting * lane elements controlled by a mask.
*** 1235,1246 **** * @param m the mask controlling lane selection * @return the result of rotating right this vector by the broadcast of an * input scalar */ @ForceInline ! public final LongVector rotateR(int s, VectorMask<Long> m) { ! return shiftR(s, m).or(shiftL(-s, m), m); } /** * {@inheritDoc} */ --- 1247,1258 ---- * @param m the mask controlling lane selection * @return the result of rotating right this vector by the broadcast of an * input scalar */ @ForceInline ! public final LongVector rotateRight(int s, VectorMask<Long> m) { ! return shiftRight(s, m).or(shiftLeft(-s, m), m); } /** * {@inheritDoc} */
*** 1578,1594 **** */ static final class LongSpecies extends AbstractSpecies<Long> { final Function<long[], LongVector> vectorFactory; private LongSpecies(VectorShape shape, ! Class<?> boxType, Class<?> maskType, Function<long[], LongVector> vectorFactory, Function<boolean[], VectorMask<Long>> maskFactory, Function<IntUnaryOperator, VectorShuffle<Long>> shuffleFromArrayFactory, fShuffleFromArray<Long> shuffleFromOpFactory) { ! super(shape, long.class, Long.SIZE, boxType, maskType, maskFactory, shuffleFromArrayFactory, shuffleFromOpFactory); this.vectorFactory = vectorFactory; } interface FOp { --- 1590,1606 ---- */ static final class LongSpecies extends AbstractSpecies<Long> { final Function<long[], LongVector> vectorFactory; private LongSpecies(VectorShape shape, ! Class<?> vectorType, Class<?> maskType, Function<long[], LongVector> vectorFactory, Function<boolean[], VectorMask<Long>> maskFactory, Function<IntUnaryOperator, VectorShuffle<Long>> shuffleFromArrayFactory, fShuffleFromArray<Long> shuffleFromOpFactory) { ! super(shape, long.class, Long.SIZE, vectorType, maskType, maskFactory, shuffleFromArrayFactory, shuffleFromOpFactory); this.vectorFactory = vectorFactory; } interface FOp {
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