Categories:
Audio (13)
Biotech (29)
Bytecode (36)
Database (77)
Framework (7)
Game (7)
General (507)
Graphics (53)
I/O (35)
IDE (2)
JAR Tools (101)
JavaBeans (21)
JDBC (121)
JDK (426)
JSP (20)
Logging (108)
Mail (58)
Messaging (8)
Network (84)
PDF (97)
Report (7)
Scripting (84)
Security (32)
Server (121)
Servlet (26)
SOAP (24)
Testing (54)
Web (15)
XML (309)
Collections:
Other Resources:
JDK 17 jdk.incubator.vector.jmod - JDK Incubator Vector
JDK 17 jdk.incubator.vector.jmod is the JMOD file for JDK 17 HTTP Server module.
JDK 17 Incubator Vector module compiled class files are stored in \fyicenter\jdk-17.0.5\jmods\jdk.incubator.vector.jmod.
JDK 17 Incubator Vector module compiled class files are also linked and stored in the \fyicenter\jdk-17.0.5\lib\modules JImage file.
JDK 17 Incubator Vector module source code files are stored in \fyicenter\jdk-17.0.5\lib\src.zip\jdk.incubator.vector.
You can click and view the content of each source code file in the list below.
✍: FYIcenter
⏎ jdk/incubator/vector/Double512Vector.java
/* * Copyright (c) 2017, 2021, Oracle and/or its affiliates. All rights reserved. * ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. * * * * * * * * * * * * * * * * * * * * */ package jdk.incubator.vector; import java.nio.ByteBuffer; import java.util.Arrays; import java.util.Objects; import java.util.function.IntUnaryOperator; import jdk.internal.vm.annotation.ForceInline; import jdk.internal.vm.vector.VectorSupport; import static jdk.internal.vm.vector.VectorSupport.*; import static jdk.incubator.vector.VectorOperators.*; // -- This file was mechanically generated: Do not edit! -- // @SuppressWarnings("cast") // warning: redundant cast final class Double512Vector extends DoubleVector { static final DoubleSpecies VSPECIES = (DoubleSpecies) DoubleVector.SPECIES_512; static final VectorShape VSHAPE = VSPECIES.vectorShape(); static final Class<Double512Vector> VCLASS = Double512Vector.class; static final int VSIZE = VSPECIES.vectorBitSize(); static final int VLENGTH = VSPECIES.laneCount(); // used by the JVM static final Class<Double> ETYPE = double.class; // used by the JVM Double512Vector(double[] v) { super(v); } // For compatibility as Double512Vector::new, // stored into species.vectorFactory. Double512Vector(Object v) { this((double[]) v); } static final Double512Vector ZERO = new Double512Vector(new double[VLENGTH]); static final Double512Vector IOTA = new Double512Vector(VSPECIES.iotaArray()); static { // Warm up a few species caches. // If we do this too much we will // get NPEs from bootstrap circularity. VSPECIES.dummyVector(); VSPECIES.withLanes(LaneType.BYTE); } // Specialized extractors @ForceInline final @Override public DoubleSpecies vspecies() { // ISSUE: This should probably be a @Stable // field inside AbstractVector, rather than // a megamorphic method. return VSPECIES; } @ForceInline @Override public final Class<Double> elementType() { return double.class; } @ForceInline @Override public final int elementSize() { return Double.SIZE; } @ForceInline @Override public final VectorShape shape() { return VSHAPE; } @ForceInline @Override public final int length() { return VLENGTH; } @ForceInline @Override public final int bitSize() { return VSIZE; } @ForceInline @Override public final int byteSize() { return VSIZE / Byte.SIZE; } /*package-private*/ @ForceInline final @Override double[] vec() { return (double[])getPayload(); } // Virtualized constructors @Override @ForceInline public final Double512Vector broadcast(double e) { return (Double512Vector) super.broadcastTemplate(e); // specialize } @Override @ForceInline public final Double512Vector broadcast(long e) { return (Double512Vector) super.broadcastTemplate(e); // specialize } @Override @ForceInline Double512Mask maskFromArray(boolean[] bits) { return new Double512Mask(bits); } @Override @ForceInline Double512Shuffle iotaShuffle() { return Double512Shuffle.IOTA; } @ForceInline Double512Shuffle iotaShuffle(int start, int step, boolean wrap) { if (wrap) { return (Double512Shuffle)VectorSupport.shuffleIota(ETYPE, Double512Shuffle.class, VSPECIES, VLENGTH, start, step, 1, (l, lstart, lstep, s) -> s.shuffleFromOp(i -> (VectorIntrinsics.wrapToRange(i*lstep + lstart, l)))); } else { return (Double512Shuffle)VectorSupport.shuffleIota(ETYPE, Double512Shuffle.class, VSPECIES, VLENGTH, start, step, 0, (l, lstart, lstep, s) -> s.shuffleFromOp(i -> (i*lstep + lstart))); } } @Override @ForceInline Double512Shuffle shuffleFromBytes(byte[] reorder) { return new Double512Shuffle(reorder); } @Override @ForceInline Double512Shuffle shuffleFromArray(int[] indexes, int i) { return new Double512Shuffle(indexes, i); } @Override @ForceInline Double512Shuffle shuffleFromOp(IntUnaryOperator fn) { return new Double512Shuffle(fn); } // Make a vector of the same species but the given elements: @ForceInline final @Override Double512Vector vectorFactory(double[] vec) { return new Double512Vector(vec); } @ForceInline final @Override Byte512Vector asByteVectorRaw() { return (Byte512Vector) super.asByteVectorRawTemplate(); // specialize } @ForceInline final @Override AbstractVector<?> asVectorRaw(LaneType laneType) { return super.asVectorRawTemplate(laneType); // specialize } // Unary operator @ForceInline final @Override Double512Vector uOp(FUnOp f) { return (Double512Vector) super.uOpTemplate(f); // specialize } @ForceInline final @Override Double512Vector uOp(VectorMask<Double> m, FUnOp f) { return (Double512Vector) super.uOpTemplate((Double512Mask)m, f); // specialize } // Binary operator @ForceInline final @Override Double512Vector bOp(Vector<Double> v, FBinOp f) { return (Double512Vector) super.bOpTemplate((Double512Vector)v, f); // specialize } @ForceInline final @Override Double512Vector bOp(Vector<Double> v, VectorMask<Double> m, FBinOp f) { return (Double512Vector) super.bOpTemplate((Double512Vector)v, (Double512Mask)m, f); // specialize } // Ternary operator @ForceInline final @Override Double512Vector tOp(Vector<Double> v1, Vector<Double> v2, FTriOp f) { return (Double512Vector) super.tOpTemplate((Double512Vector)v1, (Double512Vector)v2, f); // specialize } @ForceInline final @Override Double512Vector tOp(Vector<Double> v1, Vector<Double> v2, VectorMask<Double> m, FTriOp f) { return (Double512Vector) super.tOpTemplate((Double512Vector)v1, (Double512Vector)v2, (Double512Mask)m, f); // specialize } @ForceInline final @Override double rOp(double v, FBinOp f) { return super.rOpTemplate(v, f); // specialize } @Override @ForceInline public final <F> Vector<F> convertShape(VectorOperators.Conversion<Double,F> conv, VectorSpecies<F> rsp, int part) { return super.convertShapeTemplate(conv, rsp, part); // specialize } @Override @ForceInline public final <F> Vector<F> reinterpretShape(VectorSpecies<F> toSpecies, int part) { return super.reinterpretShapeTemplate(toSpecies, part); // specialize } // Specialized algebraic operations: // The following definition forces a specialized version of this // crucial method into the v-table of this class. A call to add() // will inline to a call to lanewise(ADD,), at which point the JIT // intrinsic will have the opcode of ADD, plus all the metadata // for this particular class, enabling it to generate precise // code. // // There is probably no benefit to the JIT to specialize the // masked or broadcast versions of the lanewise method. @Override @ForceInline public Double512Vector lanewise(Unary op) { return (Double512Vector) super.lanewiseTemplate(op); // specialize } @Override @ForceInline public Double512Vector lanewise(Binary op, Vector<Double> v) { return (Double512Vector) super.lanewiseTemplate(op, v); // specialize } /*package-private*/ @Override @ForceInline public final Double512Vector lanewise(VectorOperators.Ternary op, Vector<Double> v1, Vector<Double> v2) { return (Double512Vector) super.lanewiseTemplate(op, v1, v2); // specialize } @Override @ForceInline public final Double512Vector addIndex(int scale) { return (Double512Vector) super.addIndexTemplate(scale); // specialize } // Type specific horizontal reductions @Override @ForceInline public final double reduceLanes(VectorOperators.Associative op) { return super.reduceLanesTemplate(op); // specialized } @Override @ForceInline public final double reduceLanes(VectorOperators.Associative op, VectorMask<Double> m) { return super.reduceLanesTemplate(op, m); // specialized } @Override @ForceInline public final long reduceLanesToLong(VectorOperators.Associative op) { return (long) super.reduceLanesTemplate(op); // specialized } @Override @ForceInline public final long reduceLanesToLong(VectorOperators.Associative op, VectorMask<Double> m) { return (long) super.reduceLanesTemplate(op, m); // specialized } @ForceInline public VectorShuffle<Double> toShuffle() { return super.toShuffleTemplate(Double512Shuffle.class); // specialize } // Specialized unary testing @Override @ForceInline public final Double512Mask test(Test op) { return super.testTemplate(Double512Mask.class, op); // specialize } // Specialized comparisons @Override @ForceInline public final Double512Mask compare(Comparison op, Vector<Double> v) { return super.compareTemplate(Double512Mask.class, op, v); // specialize } @Override @ForceInline public final Double512Mask compare(Comparison op, double s) { return super.compareTemplate(Double512Mask.class, op, s); // specialize } @Override @ForceInline public final Double512Mask compare(Comparison op, long s) { return super.compareTemplate(Double512Mask.class, op, s); // specialize } @Override @ForceInline public Double512Vector blend(Vector<Double> v, VectorMask<Double> m) { return (Double512Vector) super.blendTemplate(Double512Mask.class, (Double512Vector) v, (Double512Mask) m); // specialize } @Override @ForceInline public Double512Vector slice(int origin, Vector<Double> v) { return (Double512Vector) super.sliceTemplate(origin, v); // specialize } @Override @ForceInline public Double512Vector slice(int origin) { return (Double512Vector) super.sliceTemplate(origin); // specialize } @Override @ForceInline public Double512Vector unslice(int origin, Vector<Double> w, int part) { return (Double512Vector) super.unsliceTemplate(origin, w, part); // specialize } @Override @ForceInline public Double512Vector unslice(int origin, Vector<Double> w, int part, VectorMask<Double> m) { return (Double512Vector) super.unsliceTemplate(Double512Mask.class, origin, w, part, (Double512Mask) m); // specialize } @Override @ForceInline public Double512Vector unslice(int origin) { return (Double512Vector) super.unsliceTemplate(origin); // specialize } @Override @ForceInline public Double512Vector rearrange(VectorShuffle<Double> s) { return (Double512Vector) super.rearrangeTemplate(Double512Shuffle.class, (Double512Shuffle) s); // specialize } @Override @ForceInline public Double512Vector rearrange(VectorShuffle<Double> shuffle, VectorMask<Double> m) { return (Double512Vector) super.rearrangeTemplate(Double512Shuffle.class, (Double512Shuffle) shuffle, (Double512Mask) m); // specialize } @Override @ForceInline public Double512Vector rearrange(VectorShuffle<Double> s, Vector<Double> v) { return (Double512Vector) super.rearrangeTemplate(Double512Shuffle.class, (Double512Shuffle) s, (Double512Vector) v); // specialize } @Override @ForceInline public Double512Vector selectFrom(Vector<Double> v) { return (Double512Vector) super.selectFromTemplate((Double512Vector) v); // specialize } @Override @ForceInline public Double512Vector selectFrom(Vector<Double> v, VectorMask<Double> m) { return (Double512Vector) super.selectFromTemplate((Double512Vector) v, (Double512Mask) m); // specialize } @ForceInline @Override public double lane(int i) { long bits; switch(i) { case 0: bits = laneHelper(0); break; case 1: bits = laneHelper(1); break; case 2: bits = laneHelper(2); break; case 3: bits = laneHelper(3); break; case 4: bits = laneHelper(4); break; case 5: bits = laneHelper(5); break; case 6: bits = laneHelper(6); break; case 7: bits = laneHelper(7); break; default: throw new IllegalArgumentException("Index " + i + " must be zero or positive, and less than " + VLENGTH); } return Double.longBitsToDouble(bits); } public long laneHelper(int i) { return (long) VectorSupport.extract( VCLASS, ETYPE, VLENGTH, this, i, (vec, ix) -> { double[] vecarr = vec.vec(); return (long)Double.doubleToLongBits(vecarr[ix]); }); } @ForceInline @Override public Double512Vector withLane(int i, double e) { switch(i) { case 0: return withLaneHelper(0, e); case 1: return withLaneHelper(1, e); case 2: return withLaneHelper(2, e); case 3: return withLaneHelper(3, e); case 4: return withLaneHelper(4, e); case 5: return withLaneHelper(5, e); case 6: return withLaneHelper(6, e); case 7: return withLaneHelper(7, e); default: throw new IllegalArgumentException("Index " + i + " must be zero or positive, and less than " + VLENGTH); } } public Double512Vector withLaneHelper(int i, double e) { return VectorSupport.insert( VCLASS, ETYPE, VLENGTH, this, i, (long)Double.doubleToLongBits(e), (v, ix, bits) -> { double[] res = v.vec().clone(); res[ix] = Double.longBitsToDouble((long)bits); return v.vectorFactory(res); }); } // Mask static final class Double512Mask extends AbstractMask<Double> { static final int VLENGTH = VSPECIES.laneCount(); // used by the JVM static final Class<Double> ETYPE = double.class; // used by the JVM Double512Mask(boolean[] bits) { this(bits, 0); } Double512Mask(boolean[] bits, int offset) { super(prepare(bits, offset)); } Double512Mask(boolean val) { super(prepare(val)); } private static boolean[] prepare(boolean[] bits, int offset) { boolean[] newBits = new boolean[VSPECIES.laneCount()]; for (int i = 0; i < newBits.length; i++) { newBits[i] = bits[offset + i]; } return newBits; } private static boolean[] prepare(boolean val) { boolean[] bits = new boolean[VSPECIES.laneCount()]; Arrays.fill(bits, val); return bits; } @ForceInline final @Override public DoubleSpecies vspecies() { // ISSUE: This should probably be a @Stable // field inside AbstractMask, rather than // a megamorphic method. return VSPECIES; } @ForceInline boolean[] getBits() { return (boolean[])getPayload(); } @Override Double512Mask uOp(MUnOp f) { boolean[] res = new boolean[vspecies().laneCount()]; boolean[] bits = getBits(); for (int i = 0; i < res.length; i++) { res[i] = f.apply(i, bits[i]); } return new Double512Mask(res); } @Override Double512Mask bOp(VectorMask<Double> m, MBinOp f) { boolean[] res = new boolean[vspecies().laneCount()]; boolean[] bits = getBits(); boolean[] mbits = ((Double512Mask)m).getBits(); for (int i = 0; i < res.length; i++) { res[i] = f.apply(i, bits[i], mbits[i]); } return new Double512Mask(res); } @ForceInline @Override public final Double512Vector toVector() { return (Double512Vector) super.toVectorTemplate(); // specialize } /** * Helper function for lane-wise mask conversions. * This function kicks in after intrinsic failure. */ @ForceInline private final <E> VectorMask<E> defaultMaskCast(AbstractSpecies<E> dsp) { if (length() != dsp.laneCount()) throw new IllegalArgumentException("VectorMask length and species length differ"); boolean[] maskArray = toArray(); return dsp.maskFactory(maskArray).check(dsp); } @Override @ForceInline public <E> VectorMask<E> cast(VectorSpecies<E> dsp) { AbstractSpecies<E> species = (AbstractSpecies<E>) dsp; if (length() != species.laneCount()) throw new IllegalArgumentException("VectorMask length and species length differ"); if (VSIZE == species.vectorBitSize()) { Class<?> dtype = species.elementType(); Class<?> dmtype = species.maskType(); return VectorSupport.convert(VectorSupport.VECTOR_OP_REINTERPRET, this.getClass(), ETYPE, VLENGTH, dmtype, dtype, VLENGTH, this, species, Double512Mask::defaultMaskCast); } return this.defaultMaskCast(species); } @Override @ForceInline public Double512Mask eq(VectorMask<Double> mask) { Objects.requireNonNull(mask); Double512Mask m = (Double512Mask)mask; return xor(m.not()); } // Unary operations @Override @ForceInline public Double512Mask not() { return xor(maskAll(true)); } // Binary operations @Override @ForceInline public Double512Mask and(VectorMask<Double> mask) { Objects.requireNonNull(mask); Double512Mask m = (Double512Mask)mask; return VectorSupport.binaryOp(VECTOR_OP_AND, Double512Mask.class, long.class, VLENGTH, this, m, (m1, m2) -> m1.bOp(m2, (i, a, b) -> a & b)); } @Override @ForceInline public Double512Mask or(VectorMask<Double> mask) { Objects.requireNonNull(mask); Double512Mask m = (Double512Mask)mask; return VectorSupport.binaryOp(VECTOR_OP_OR, Double512Mask.class, long.class, VLENGTH, this, m, (m1, m2) -> m1.bOp(m2, (i, a, b) -> a | b)); } @ForceInline /* package-private */ Double512Mask xor(VectorMask<Double> mask) { Objects.requireNonNull(mask); Double512Mask m = (Double512Mask)mask; return VectorSupport.binaryOp(VECTOR_OP_XOR, Double512Mask.class, long.class, VLENGTH, this, m, (m1, m2) -> m1.bOp(m2, (i, a, b) -> a ^ b)); } // Mask Query operations @Override @ForceInline public int trueCount() { return VectorSupport.maskReductionCoerced(VECTOR_OP_MASK_TRUECOUNT, Double512Mask.class, long.class, VLENGTH, this, (m) -> trueCountHelper(((Double512Mask)m).getBits())); } @Override @ForceInline public int firstTrue() { return VectorSupport.maskReductionCoerced(VECTOR_OP_MASK_FIRSTTRUE, Double512Mask.class, long.class, VLENGTH, this, (m) -> firstTrueHelper(((Double512Mask)m).getBits())); } @Override @ForceInline public int lastTrue() { return VectorSupport.maskReductionCoerced(VECTOR_OP_MASK_LASTTRUE, Double512Mask.class, long.class, VLENGTH, this, (m) -> lastTrueHelper(((Double512Mask)m).getBits())); } // Reductions @Override @ForceInline public boolean anyTrue() { return VectorSupport.test(BT_ne, Double512Mask.class, long.class, VLENGTH, this, vspecies().maskAll(true), (m, __) -> anyTrueHelper(((Double512Mask)m).getBits())); } @Override @ForceInline public boolean allTrue() { return VectorSupport.test(BT_overflow, Double512Mask.class, long.class, VLENGTH, this, vspecies().maskAll(true), (m, __) -> allTrueHelper(((Double512Mask)m).getBits())); } @ForceInline /*package-private*/ static Double512Mask maskAll(boolean bit) { return VectorSupport.broadcastCoerced(Double512Mask.class, long.class, VLENGTH, (bit ? -1 : 0), null, (v, __) -> (v != 0 ? TRUE_MASK : FALSE_MASK)); } private static final Double512Mask TRUE_MASK = new Double512Mask(true); private static final Double512Mask FALSE_MASK = new Double512Mask(false); } // Shuffle static final class Double512Shuffle extends AbstractShuffle<Double> { static final int VLENGTH = VSPECIES.laneCount(); // used by the JVM static final Class<Double> ETYPE = double.class; // used by the JVM Double512Shuffle(byte[] reorder) { super(VLENGTH, reorder); } public Double512Shuffle(int[] reorder) { super(VLENGTH, reorder); } public Double512Shuffle(int[] reorder, int i) { super(VLENGTH, reorder, i); } public Double512Shuffle(IntUnaryOperator fn) { super(VLENGTH, fn); } @Override public DoubleSpecies vspecies() { return VSPECIES; } static { // There must be enough bits in the shuffle lanes to encode // VLENGTH valid indexes and VLENGTH exceptional ones. assert(VLENGTH < Byte.MAX_VALUE); assert(Byte.MIN_VALUE <= -VLENGTH); } static final Double512Shuffle IOTA = new Double512Shuffle(IDENTITY); @Override @ForceInline public Double512Vector toVector() { return VectorSupport.shuffleToVector(VCLASS, ETYPE, Double512Shuffle.class, this, VLENGTH, (s) -> ((Double512Vector)(((AbstractShuffle<Double>)(s)).toVectorTemplate()))); } @Override @ForceInline public <F> VectorShuffle<F> cast(VectorSpecies<F> s) { AbstractSpecies<F> species = (AbstractSpecies<F>) s; if (length() != species.laneCount()) throw new IllegalArgumentException("VectorShuffle length and species length differ"); int[] shuffleArray = toArray(); return s.shuffleFromArray(shuffleArray, 0).check(s); } @ForceInline @Override public Double512Shuffle rearrange(VectorShuffle<Double> shuffle) { Double512Shuffle s = (Double512Shuffle) shuffle; byte[] reorder1 = reorder(); byte[] reorder2 = s.reorder(); byte[] r = new byte[reorder1.length]; for (int i = 0; i < reorder1.length; i++) { int ssi = reorder2[i]; r[i] = reorder1[ssi]; // throws on exceptional index } return new Double512Shuffle(r); } } // ================================================ // Specialized low-level memory operations. @ForceInline @Override final DoubleVector fromArray0(double[] a, int offset) { return super.fromArray0Template(a, offset); // specialize } @ForceInline @Override final DoubleVector fromByteArray0(byte[] a, int offset) { return super.fromByteArray0Template(a, offset); // specialize } @ForceInline @Override final DoubleVector fromByteBuffer0(ByteBuffer bb, int offset) { return super.fromByteBuffer0Template(bb, offset); // specialize } @ForceInline @Override final void intoArray0(double[] a, int offset) { super.intoArray0Template(a, offset); // specialize } @ForceInline @Override final void intoByteArray0(byte[] a, int offset) { super.intoByteArray0Template(a, offset); // specialize } // End of specialized low-level memory operations. // ================================================ }
⏎ jdk/incubator/vector/Double512Vector.java
Or download all of them as a single archive file:
File name: jdk.incubator.vector-17.0.5-src.zip File size: 350622 bytes Release date: 2022-09-13 Download
⇒ JDK 17 jdk.internal.ed.jmod - Internal Editor Module
2023-10-04, 4053👍, 0💬
Popular Posts:
JRE 8 rt.jar is the JAR file for JRE 8 RT (Runtime) libraries. JRE (Java Runtime) 8 is the runtime e...
layout.jar is a component in iText Java library to provide layout functionalities. iText Java librar...
How to run "jarsigner" command from JDK tools.jar file? "jarsigner" command allows you to digitally ...
ZooKeeper is a centralized service for maintaining configuration information, naming, providing dist...
JDK 11 jdk.localedata.jmod is the JMOD file for JDK 11 Localedata module. JDK 11 Locale Data module ...