1 /*
   2  * Copyright (c) 2017, Oracle and/or its affiliates. All rights reserved.
   3  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
   4  *
   5  * This code is free software; you can redistribute it and/or modify it
   6  * under the terms of the GNU General Public License version 2 only, as
   7  * published by the Free Software Foundation.  Oracle designates this
   8  * particular file as subject to the "Classpath" exception as provided
   9  * by Oracle in the LICENSE file that accompanied this code.
  10  *
  11  * This code is distributed in the hope that it will be useful, but WITHOUT
  12  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  13  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  14  * version 2 for more details (a copy is included in the LICENSE file that
  15  * accompanied this code).
  16  *
  17  * You should have received a copy of the GNU General Public License version
  18  * 2 along with this work; if not, write to the Free Software Foundation,
  19  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  20  *
  21  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  22  * or visit www.oracle.com if you need additional information or have
  23  * questions.
  24  */
  25 package jdk.incubator.vector;
  26 
  27 import java.nio.ByteBuffer;
  28 import java.nio.ByteOrder;
  29 #if[!byte]
  30 import java.nio.$Type$Buffer;
  31 #end[!byte]
  32 import java.nio.ReadOnlyBufferException;
  33 import java.util.Arrays;
  34 import java.util.Objects;
  35 import java.util.function.IntUnaryOperator;
  36 
  37 import jdk.internal.misc.Unsafe;
  38 import jdk.internal.vm.annotation.ForceInline;
  39 import static jdk.incubator.vector.VectorIntrinsics.*;
  40 
  41 @SuppressWarnings("cast")
  42 final class $vectortype$ extends $abstractvectortype$ {
  43     private static final Species<$Boxtype$> SPECIES = $Type$Vector.SPECIES_$BITS$;
  44 
  45     static final $vectortype$ ZERO = new $vectortype$();
  46 
  47     static final int LENGTH = SPECIES.length();
  48 
  49 #if[!byteOrShort]
  50     // Index vector species
  51     private static final IntVector.IntSpecies INDEX_SPECIES;
  52 
  53     static {
  54 #if[longOrDouble64]
  55         INDEX_SPECIES = (IntVector.IntSpecies) IntVector.species(Shape.S_64_BIT);
  56 #else[longOrDouble64]
  57         int bitSize = Vector.bitSizeForVectorLength(int.class, LENGTH);
  58         INDEX_SPECIES = (IntVector.IntSpecies) IntVector.species(Shape.forBitSize(bitSize));
  59 #end[longOrDouble64]
  60     }
  61 
  62 #end[!byteOrShort]
  63     private final $type$[] vec; // Don't access directly, use getElements() instead.
  64 
  65     private $type$[] getElements() {
  66         return VectorIntrinsics.maybeRebox(this).vec;
  67     }
  68 
  69     $vectortype$() {
  70         vec = new $type$[SPECIES.length()];
  71     }
  72 
  73     $vectortype$($type$[] v) {
  74         vec = v;
  75     }
  76 
  77     @Override
  78     public int length() { return LENGTH; }
  79 
  80     // Unary operator
  81 
  82     @Override
  83     $vectortype$ uOp(FUnOp f) {
  84         $type$[] vec = getElements();
  85         $type$[] res = new $type$[length()];
  86         for (int i = 0; i < length(); i++) {
  87             res[i] = f.apply(i, vec[i]);
  88         }
  89         return new $vectortype$(res);
  90     }
  91 
  92     @Override
  93     $vectortype$ uOp(Mask<$Boxtype$> o, FUnOp f) {
  94         $type$[] vec = getElements();
  95         $type$[] res = new $type$[length()];
  96         boolean[] mbits = (($masktype$)o).getBits();
  97         for (int i = 0; i < length(); i++) {
  98             res[i] = mbits[i] ? f.apply(i, vec[i]) : vec[i];
  99         }
 100         return new $vectortype$(res);
 101     }
 102 
 103     // Binary operator
 104 
 105     @Override
 106     $vectortype$ bOp(Vector<$Boxtype$> o, FBinOp f) {
 107         $type$[] res = new $type$[length()];
 108         $type$[] vec1 = this.getElements();
 109         $type$[] vec2 = (($vectortype$)o).getElements();
 110         for (int i = 0; i < length(); i++) {
 111             res[i] = f.apply(i, vec1[i], vec2[i]);
 112         }
 113         return new $vectortype$(res);
 114     }
 115 
 116     @Override
 117     $vectortype$ bOp(Vector<$Boxtype$> o1, Mask<$Boxtype$> o2, FBinOp f) {
 118         $type$[] res = new $type$[length()];
 119         $type$[] vec1 = this.getElements();
 120         $type$[] vec2 = (($vectortype$)o1).getElements();
 121         boolean[] mbits = (($masktype$)o2).getBits();
 122         for (int i = 0; i < length(); i++) {
 123             res[i] = mbits[i] ? f.apply(i, vec1[i], vec2[i]) : vec1[i];
 124         }
 125         return new $vectortype$(res);
 126     }
 127 
 128     // Trinary operator
 129 
 130     @Override
 131     $vectortype$ tOp(Vector<$Boxtype$> o1, Vector<$Boxtype$> o2, FTriOp f) {
 132         $type$[] res = new $type$[length()];
 133         $type$[] vec1 = this.getElements();
 134         $type$[] vec2 = (($vectortype$)o1).getElements();
 135         $type$[] vec3 = (($vectortype$)o2).getElements();
 136         for (int i = 0; i < length(); i++) {
 137             res[i] = f.apply(i, vec1[i], vec2[i], vec3[i]);
 138         }
 139         return new $vectortype$(res);
 140     }
 141 
 142     @Override
 143     $vectortype$ tOp(Vector<$Boxtype$> o1, Vector<$Boxtype$> o2, Mask<$Boxtype$> o3, FTriOp f) {
 144         $type$[] res = new $type$[length()];
 145         $type$[] vec1 = getElements();
 146         $type$[] vec2 = (($vectortype$)o1).getElements();
 147         $type$[] vec3 = (($vectortype$)o2).getElements();
 148         boolean[] mbits = (($masktype$)o3).getBits();
 149         for (int i = 0; i < length(); i++) {
 150             res[i] = mbits[i] ? f.apply(i, vec1[i], vec2[i], vec3[i]) : vec1[i];
 151         }
 152         return new $vectortype$(res);
 153     }
 154 
 155     @Override
 156     $type$ rOp($type$ v, FBinOp f) {
 157         $type$[] vec = getElements();
 158         for (int i = 0; i < length(); i++) {
 159             v = f.apply(i, v, vec[i]);
 160         }
 161         return v;
 162     }
 163 
 164     @Override
 165     @ForceInline
 166     public <F> Vector<F> cast(Species<F> s) {
 167         Objects.requireNonNull(s);
 168         if (s.length() != LENGTH)
 169             throw new IllegalArgumentException("Vector length this species length differ");
 170 
 171         return VectorIntrinsics.cast(
 172             $vectortype$.class,
 173             $type$.class, LENGTH,
 174             s.boxType(),
 175             s.elementType(), LENGTH,
 176             this, s,
 177             (species, vector) -> vector.castDefault(species)
 178         );
 179     }
 180 
 181     @SuppressWarnings("unchecked")
 182     @ForceInline
 183     private <F> Vector<F> castDefault(Species<F> s) {
 184         int limit = s.length();
 185 
 186         Class<?> stype = s.elementType();
 187         if (stype == byte.class) {
 188             byte[] a = new byte[limit];
 189             for (int i = 0; i < limit; i++) {
 190                 a[i] = (byte) this.get(i);
 191             }
 192             return (Vector) ByteVector.fromArray((Species<Byte>) s, a, 0);
 193         } else if (stype == short.class) {
 194             short[] a = new short[limit];
 195             for (int i = 0; i < limit; i++) {
 196                 a[i] = (short) this.get(i);
 197             }
 198             return (Vector) ShortVector.fromArray((Species<Short>) s, a, 0);
 199         } else if (stype == int.class) {
 200             int[] a = new int[limit];
 201             for (int i = 0; i < limit; i++) {
 202                 a[i] = (int) this.get(i);
 203             }
 204             return (Vector) IntVector.fromArray((Species<Integer>) s, a, 0);
 205         } else if (stype == long.class) {
 206             long[] a = new long[limit];
 207             for (int i = 0; i < limit; i++) {
 208                 a[i] = (long) this.get(i);
 209             }
 210             return (Vector) LongVector.fromArray((Species<Long>) s, a, 0);
 211         } else if (stype == float.class) {
 212             float[] a = new float[limit];
 213             for (int i = 0; i < limit; i++) {
 214                 a[i] = (float) this.get(i);
 215             }
 216             return (Vector) FloatVector.fromArray((Species<Float>) s, a, 0);
 217         } else if (stype == double.class) {
 218             double[] a = new double[limit];
 219             for (int i = 0; i < limit; i++) {
 220                 a[i] = (double) this.get(i);
 221             }
 222             return (Vector) DoubleVector.fromArray((Species<Double>) s, a, 0);
 223         } else {
 224             throw new UnsupportedOperationException("Bad lane type for casting.");
 225         }
 226     }
 227 
 228     @Override
 229     @ForceInline
 230     @SuppressWarnings("unchecked")
 231     public <F> Vector<F> reinterpret(Species<F> s) {
 232         Objects.requireNonNull(s);
 233 
 234         if(s.elementType().equals($type$.class)) {
 235             return (Vector<F>) reshape((Species<$Boxtype$>)s);
 236         }
 237         if(s.bitSize() == bitSize()) {
 238             return reinterpretType(s);
 239         }
 240 
 241         return defaultReinterpret(s);
 242     }
 243 
 244     @ForceInline
 245     private <F> Vector<F> reinterpretType(Species<F> s) {
 246         Objects.requireNonNull(s);
 247 
 248         Class<?> stype = s.elementType();
 249         if (stype == byte.class) {
 250             return VectorIntrinsics.reinterpret(
 251                 $vectortype$.class,
 252                 $type$.class, LENGTH,
 253                 Byte$bits$Vector.class,
 254                 byte.class, Byte$bits$Vector.LENGTH,
 255                 this, s,
 256                 (species, vector) -> vector.defaultReinterpret(species)
 257             );
 258         } else if (stype == short.class) {
 259             return VectorIntrinsics.reinterpret(
 260                 $vectortype$.class,
 261                 $type$.class, LENGTH,
 262                 Short$bits$Vector.class,
 263                 short.class, Short$bits$Vector.LENGTH,
 264                 this, s,
 265                 (species, vector) -> vector.defaultReinterpret(species)
 266             );
 267         } else if (stype == int.class) {
 268             return VectorIntrinsics.reinterpret(
 269                 $vectortype$.class,
 270                 $type$.class, LENGTH,
 271                 Int$bits$Vector.class,
 272                 int.class, Int$bits$Vector.LENGTH,
 273                 this, s,
 274                 (species, vector) -> vector.defaultReinterpret(species)
 275             );
 276         } else if (stype == long.class) {
 277             return VectorIntrinsics.reinterpret(
 278                 $vectortype$.class,
 279                 $type$.class, LENGTH,
 280                 Long$bits$Vector.class,
 281                 long.class, Long$bits$Vector.LENGTH,
 282                 this, s,
 283                 (species, vector) -> vector.defaultReinterpret(species)
 284             );
 285         } else if (stype == float.class) {
 286             return VectorIntrinsics.reinterpret(
 287                 $vectortype$.class,
 288                 $type$.class, LENGTH,
 289                 Float$bits$Vector.class,
 290                 float.class, Float$bits$Vector.LENGTH,
 291                 this, s,
 292                 (species, vector) -> vector.defaultReinterpret(species)
 293             );
 294         } else if (stype == double.class) {
 295             return VectorIntrinsics.reinterpret(
 296                 $vectortype$.class,
 297                 $type$.class, LENGTH,
 298                 Double$bits$Vector.class,
 299                 double.class, Double$bits$Vector.LENGTH,
 300                 this, s,
 301                 (species, vector) -> vector.defaultReinterpret(species)
 302             );
 303         } else {
 304             throw new UnsupportedOperationException("Bad lane type for casting.");
 305         }
 306     }
 307 
 308     @Override
 309     @ForceInline
 310     public $abstractvectortype$ reshape(Species<$Boxtype$> s) {
 311         Objects.requireNonNull(s);
 312         if (s.bitSize() == 64 && (s.boxType() == $Type$64Vector.class)) {
 313             return VectorIntrinsics.reinterpret(
 314                 $vectortype$.class,
 315                 $type$.class, LENGTH,
 316                 $Type$64Vector.class,
 317                 $type$.class, $Type$64Vector.LENGTH,
 318                 this, s,
 319                 (species, vector) -> ($abstractvectortype$) vector.defaultReinterpret(species)
 320             );
 321         } else if (s.bitSize() == 128 && (s.boxType() == $Type$128Vector.class)) {
 322             return VectorIntrinsics.reinterpret(
 323                 $vectortype$.class,
 324                 $type$.class, LENGTH,
 325                 $Type$128Vector.class,
 326                 $type$.class, $Type$128Vector.LENGTH,
 327                 this, s,
 328                 (species, vector) -> ($abstractvectortype$) vector.defaultReinterpret(species)
 329             );
 330         } else if (s.bitSize() == 256 && (s.boxType() == $Type$256Vector.class)) {
 331             return VectorIntrinsics.reinterpret(
 332                 $vectortype$.class,
 333                 $type$.class, LENGTH,
 334                 $Type$256Vector.class,
 335                 $type$.class, $Type$256Vector.LENGTH,
 336                 this, s,
 337                 (species, vector) -> ($abstractvectortype$) vector.defaultReinterpret(species)
 338             );
 339         } else if (s.bitSize() == 512 && (s.boxType() == $Type$512Vector.class)) {
 340             return VectorIntrinsics.reinterpret(
 341                 $vectortype$.class,
 342                 $type$.class, LENGTH,
 343                 $Type$512Vector.class,
 344                 $type$.class, $Type$512Vector.LENGTH,
 345                 this, s,
 346                 (species, vector) -> ($abstractvectortype$) vector.defaultReinterpret(species)
 347             );
 348         } else if ((s.bitSize() > 0) && (s.bitSize() <= 2048)
 349                 && (s.bitSize() % 128 == 0) && (s.boxType() == $Type$MaxVector.class)) {
 350             return VectorIntrinsics.reinterpret(
 351                 $vectortype$.class,
 352                 $type$.class, LENGTH,
 353                 $Type$MaxVector.class,
 354                 $type$.class, $Type$MaxVector.LENGTH,
 355                 this, s,
 356                 (species, vector) -> ($abstractvectortype$) vector.defaultReinterpret(species)
 357             );
 358         } else {
 359             throw new InternalError("Unimplemented size");
 360         }
 361     }
 362 
 363     // Binary operations with scalars
 364 
 365     @Override
 366     @ForceInline
 367     public $abstractvectortype$ add($type$ o) {
 368         return add(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 369     }
 370 
 371     @Override
 372     @ForceInline
 373     public $abstractvectortype$ add($type$ o, Mask<$Boxtype$> m) {
 374         return add(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o), m);
 375     }
 376 
 377     @Override
 378     @ForceInline
 379     public $abstractvectortype$ sub($type$ o) {
 380         return sub(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 381     }
 382 
 383     @Override
 384     @ForceInline
 385     public $abstractvectortype$ sub($type$ o, Mask<$Boxtype$> m) {
 386         return sub(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o), m);
 387     }
 388 
 389     @Override
 390     @ForceInline
 391     public $abstractvectortype$ mul($type$ o) {
 392         return mul(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 393     }
 394 
 395     @Override
 396     @ForceInline
 397     public $abstractvectortype$ mul($type$ o, Mask<$Boxtype$> m) {
 398         return mul(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o), m);
 399     }
 400 
 401     @Override
 402     @ForceInline
 403     public $abstractvectortype$ min($type$ o) {
 404         return min(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 405     }
 406 
 407     @Override
 408     @ForceInline
 409     public $abstractvectortype$ max($type$ o) {
 410         return max(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 411     }
 412 
 413     @Override
 414     @ForceInline
 415     public Mask<$Boxtype$> equal($type$ o) {
 416         return equal(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 417     }
 418 
 419     @Override
 420     @ForceInline
 421     public Mask<$Boxtype$> notEqual($type$ o) {
 422         return notEqual(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 423     }
 424 
 425     @Override
 426     @ForceInline
 427     public Mask<$Boxtype$> lessThan($type$ o) {
 428         return lessThan(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 429     }
 430 
 431     @Override
 432     @ForceInline
 433     public Mask<$Boxtype$> lessThanEq($type$ o) {
 434         return lessThanEq(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 435     }
 436 
 437     @Override
 438     @ForceInline
 439     public Mask<$Boxtype$> greaterThan($type$ o) {
 440         return greaterThan(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 441     }
 442 
 443     @Override
 444     @ForceInline
 445     public Mask<$Boxtype$> greaterThanEq($type$ o) {
 446         return greaterThanEq(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 447     }
 448 
 449     @Override
 450     @ForceInline
 451     public $abstractvectortype$ blend($type$ o, Mask<$Boxtype$> m) {
 452         return blend(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o), m);
 453     }
 454 
 455 #if[FP]
 456     @Override
 457     @ForceInline
 458     public $abstractvectortype$ div($type$ o) {
 459         return div(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 460     }
 461 
 462     @Override
 463     @ForceInline
 464     public $abstractvectortype$ div($type$ o, Mask<$Boxtype$> m) {
 465         return div(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o), m);
 466     }
 467 
 468     @Override
 469     @ForceInline
 470     public $vectortype$ div(Vector<$Boxtype$> v, Mask<$Boxtype$> m) {
 471         return blend(div(v), m);
 472     }
 473 
 474     @Override
 475     @ForceInline
 476     public $abstractvectortype$ atan2($type$ o) {
 477         return atan2(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 478     }
 479 
 480     @Override
 481     @ForceInline
 482     public $abstractvectortype$ atan2($type$ o, Mask<$Boxtype$> m) {
 483         return atan2(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o), m);
 484     }
 485 
 486     @Override
 487     @ForceInline
 488     public $abstractvectortype$ pow($type$ o) {
 489         return pow(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 490     }
 491 
 492     @Override
 493     @ForceInline
 494     public $abstractvectortype$ pow($type$ o, Mask<$Boxtype$> m) {
 495         return pow(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o), m);
 496     }
 497 
 498     @Override
 499     @ForceInline
 500     public $abstractvectortype$ fma($type$ o1, $type$ o2) {
 501         return fma(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o1), ($vectortype$)$abstractvectortype$.broadcast(SPECIES, o2));
 502     }
 503 
 504     @Override
 505     @ForceInline
 506     public $abstractvectortype$ fma($type$ o1, $type$ o2, Mask<$Boxtype$> m) {
 507         return fma(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o1), ($vectortype$)$abstractvectortype$.broadcast(SPECIES, o2), m);
 508     }
 509 
 510     @Override
 511     @ForceInline
 512     public $abstractvectortype$ hypot($type$ o) {
 513         return hypot(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 514     }
 515 
 516     @Override
 517     @ForceInline
 518     public $abstractvectortype$ hypot($type$ o, Mask<$Boxtype$> m) {
 519         return hypot(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o), m);
 520     }
 521 #end[FP]
 522 
 523 #if[BITWISE]
 524     @Override
 525     @ForceInline
 526     public $abstractvectortype$ and($type$ o) {
 527         return and(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 528     }
 529 
 530     @Override
 531     @ForceInline
 532     public $abstractvectortype$ and($type$ o, Mask<$Boxtype$> m) {
 533         return and(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o), m);
 534     }
 535 
 536     @Override
 537     @ForceInline
 538     public $abstractvectortype$ or($type$ o) {
 539         return or(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 540     }
 541 
 542     @Override
 543     @ForceInline
 544     public $abstractvectortype$ or($type$ o, Mask<$Boxtype$> m) {
 545         return or(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o), m);
 546     }
 547 
 548     @Override
 549     @ForceInline
 550     public $abstractvectortype$ xor($type$ o) {
 551         return xor(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o));
 552     }
 553 
 554     @Override
 555     @ForceInline
 556     public $abstractvectortype$ xor($type$ o, Mask<$Boxtype$> m) {
 557         return xor(($vectortype$)$abstractvectortype$.broadcast(SPECIES, o), m);
 558     }
 559 
 560     @Override
 561     @ForceInline
 562     public $vectortype$ neg() {
 563         return ($vectortype$)zero(SPECIES).sub(this);
 564     }
 565 #end[BITWISE]
 566 
 567     // Unary operations
 568 
 569     @ForceInline
 570     @Override
 571     public $vectortype$ neg(Mask<$Boxtype$> m) {
 572         return blend(neg(), m);
 573     }
 574 
 575     @Override
 576     @ForceInline
 577     public $vectortype$ abs() {
 578         return VectorIntrinsics.unaryOp(
 579             VECTOR_OP_ABS, $vectortype$.class, $type$.class, LENGTH,
 580             this,
 581             v1 -> v1.uOp((i, a) -> ($type$) Math.abs(a)));
 582     }
 583 
 584     @ForceInline
 585     @Override
 586     public $vectortype$ abs(Mask<$Boxtype$> m) {
 587         return blend(abs(), m);
 588     }
 589 
 590 #if[FP]
 591     @Override
 592     @ForceInline
 593     public $vectortype$ neg() {
 594         return VectorIntrinsics.unaryOp(
 595             VECTOR_OP_NEG, $vectortype$.class, $type$.class, LENGTH,
 596             this,
 597             v1 -> v1.uOp((i, a) -> ($type$) -a));
 598     }
 599 
 600     @Override
 601     @ForceInline
 602     public $vectortype$ div(Vector<$Boxtype$> o) {
 603         Objects.requireNonNull(o);
 604         $vectortype$ v = ($vectortype$)o;
 605         return VectorIntrinsics.binaryOp(
 606             VECTOR_OP_DIV, $vectortype$.class, $type$.class, LENGTH,
 607             this, v,
 608             (v1, v2) -> v1.bOp(v2, (i, a, b) -> ($type$)(a / b)));
 609     }
 610 
 611     @Override
 612     @ForceInline
 613     public $vectortype$ sqrt() {
 614         return VectorIntrinsics.unaryOp(
 615             VECTOR_OP_SQRT, $vectortype$.class, $type$.class, LENGTH,
 616             this,
 617             v1 -> v1.uOp((i, a) -> ($type$) Math.sqrt((double) a)));
 618     }
 619 
 620     @Override
 621     @ForceInline
 622     public $vectortype$ exp() {
 623         return ($vectortype$) VectorIntrinsics.unaryOp(
 624             VECTOR_OP_EXP, $vectortype$.class, $type$.class, LENGTH,
 625             this,
 626             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.exp((double) a)));
 627     }
 628 
 629     @Override
 630     @ForceInline
 631     public $vectortype$ log1p() {
 632         return ($vectortype$) VectorIntrinsics.unaryOp(
 633             VECTOR_OP_LOG1P, $vectortype$.class, $type$.class, LENGTH,
 634             this,
 635             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.log1p((double) a)));
 636     }
 637 
 638     @Override
 639     @ForceInline
 640     public $vectortype$ log() {
 641         return ($vectortype$) VectorIntrinsics.unaryOp(
 642             VECTOR_OP_LOG, $vectortype$.class, $type$.class, LENGTH,
 643             this,
 644             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.log((double) a)));
 645     }
 646 
 647     @Override
 648     @ForceInline
 649     public $vectortype$ log10() {
 650         return ($vectortype$) VectorIntrinsics.unaryOp(
 651             VECTOR_OP_LOG10, $vectortype$.class, $type$.class, LENGTH,
 652             this,
 653             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.log10((double) a)));
 654     }
 655 
 656     @Override
 657     @ForceInline
 658     public $vectortype$ expm1() {
 659         return ($vectortype$) VectorIntrinsics.unaryOp(
 660             VECTOR_OP_EXPM1, $vectortype$.class, $type$.class, LENGTH,
 661             this,
 662             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.expm1((double) a)));
 663     }
 664 
 665     @Override
 666     @ForceInline
 667     public $vectortype$ cbrt() {
 668         return ($vectortype$) VectorIntrinsics.unaryOp(
 669             VECTOR_OP_CBRT, $vectortype$.class, $type$.class, LENGTH,
 670             this,
 671             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.cbrt((double) a)));
 672     }
 673 
 674     @Override
 675     @ForceInline
 676     public $vectortype$ sin() {
 677         return ($vectortype$) VectorIntrinsics.unaryOp(
 678             VECTOR_OP_SIN, $vectortype$.class, $type$.class, LENGTH,
 679             this,
 680             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.sin((double) a)));
 681     }
 682 
 683     @Override
 684     @ForceInline
 685     public $vectortype$ cos() {
 686         return ($vectortype$) VectorIntrinsics.unaryOp(
 687             VECTOR_OP_COS, $vectortype$.class, $type$.class, LENGTH,
 688             this,
 689             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.cos((double) a)));
 690     }
 691 
 692     @Override
 693     @ForceInline
 694     public $vectortype$ tan() {
 695         return ($vectortype$) VectorIntrinsics.unaryOp(
 696             VECTOR_OP_TAN, $vectortype$.class, $type$.class, LENGTH,
 697             this,
 698             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.tan((double) a)));
 699     }
 700 
 701     @Override
 702     @ForceInline
 703     public $vectortype$ asin() {
 704         return ($vectortype$) VectorIntrinsics.unaryOp(
 705             VECTOR_OP_ASIN, $vectortype$.class, $type$.class, LENGTH,
 706             this,
 707             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.asin((double) a)));
 708     }
 709 
 710     @Override
 711     @ForceInline
 712     public $vectortype$ acos() {
 713         return ($vectortype$) VectorIntrinsics.unaryOp(
 714             VECTOR_OP_ACOS, $vectortype$.class, $type$.class, LENGTH,
 715             this,
 716             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.acos((double) a)));
 717     }
 718 
 719     @Override
 720     @ForceInline
 721     public $vectortype$ atan() {
 722         return ($vectortype$) VectorIntrinsics.unaryOp(
 723             VECTOR_OP_ATAN, $vectortype$.class, $type$.class, LENGTH,
 724             this,
 725             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.atan((double) a)));
 726     }
 727 
 728     @Override
 729     @ForceInline
 730     public $vectortype$ sinh() {
 731         return ($vectortype$) VectorIntrinsics.unaryOp(
 732             VECTOR_OP_SINH, $vectortype$.class, $type$.class, LENGTH,
 733             this,
 734             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.sinh((double) a)));
 735     }
 736 
 737     @Override
 738     @ForceInline
 739     public $vectortype$ cosh() {
 740         return ($vectortype$) VectorIntrinsics.unaryOp(
 741             VECTOR_OP_COSH, $vectortype$.class, $type$.class, LENGTH,
 742             this,
 743             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.cosh((double) a)));
 744     }
 745 
 746     @Override
 747     @ForceInline
 748     public $vectortype$ tanh() {
 749         return ($vectortype$) VectorIntrinsics.unaryOp(
 750             VECTOR_OP_TANH, $vectortype$.class, $type$.class, LENGTH,
 751             this,
 752             v1 -> (($vectortype$)v1).uOp((i, a) -> ($type$) Math.tanh((double) a)));
 753     }
 754 
 755     @Override
 756     @ForceInline
 757     public $vectortype$ pow(Vector<$Boxtype$> o) {
 758         Objects.requireNonNull(o);
 759         $vectortype$ v = ($vectortype$)o;
 760         return ($vectortype$) VectorIntrinsics.binaryOp(
 761             VECTOR_OP_POW, $vectortype$.class, $type$.class, LENGTH,
 762             this, v,
 763             (v1, v2) -> (($vectortype$)v1).bOp(v2, (i, a, b) -> ($type$)(Math.pow(a,b))));
 764     }
 765 
 766     @Override
 767     @ForceInline
 768     public $vectortype$ hypot(Vector<$Boxtype$> o) {
 769         Objects.requireNonNull(o);
 770         $vectortype$ v = ($vectortype$)o;
 771         return ($vectortype$) VectorIntrinsics.binaryOp(
 772             VECTOR_OP_HYPOT, $vectortype$.class, $type$.class, LENGTH,
 773             this, v,
 774             (v1, v2) -> (($vectortype$)v1).bOp(v2, (i, a, b) -> ($type$)(Math.hypot(a,b))));
 775     }
 776 
 777     @Override
 778     @ForceInline
 779     public $vectortype$ atan2(Vector<$Boxtype$> o) {
 780         Objects.requireNonNull(o);
 781         $vectortype$ v = ($vectortype$)o;
 782         return ($vectortype$) VectorIntrinsics.binaryOp(
 783             VECTOR_OP_ATAN2, $vectortype$.class, $type$.class, LENGTH,
 784             this, v,
 785             (v1, v2) -> (($vectortype$)v1).bOp(v2, (i, a, b) -> ($type$)(Math.atan2(a,b))));
 786     }
 787 
 788 #end[FP]
 789 
 790 #if[BITWISE]
 791     @Override
 792     @ForceInline
 793     public $vectortype$ not() {
 794         return VectorIntrinsics.unaryOp(
 795             VECTOR_OP_NOT, $vectortype$.class, $type$.class, LENGTH,
 796             this,
 797             v1 -> v1.uOp((i, a) -> ($type$) ~a));
 798     }
 799 
 800     @ForceInline
 801     @Override
 802     public $vectortype$ not(Mask<$Boxtype$> m) {
 803         return blend(not(), m);
 804     }
 805 #end[BITWISE]
 806     // Binary operations
 807 
 808     @Override
 809     @ForceInline
 810     public $vectortype$ add(Vector<$Boxtype$> o) {
 811         Objects.requireNonNull(o);
 812         $vectortype$ v = ($vectortype$)o;
 813         return VectorIntrinsics.binaryOp(
 814             VECTOR_OP_ADD, $vectortype$.class, $type$.class, LENGTH,
 815             this, v,
 816             (v1, v2) -> v1.bOp(v2, (i, a, b) -> ($type$)(a + b)));
 817     }
 818 
 819     @Override
 820     @ForceInline
 821     public $vectortype$ add(Vector<$Boxtype$> v, Mask<$Boxtype$> m) {
 822         return blend(add(v), m);
 823     }
 824 
 825     @Override
 826     @ForceInline
 827     public $vectortype$ sub(Vector<$Boxtype$> o) {
 828         Objects.requireNonNull(o);
 829         $vectortype$ v = ($vectortype$)o;
 830         return VectorIntrinsics.binaryOp(
 831             VECTOR_OP_SUB, $vectortype$.class, $type$.class, LENGTH,
 832             this, v,
 833             (v1, v2) -> v1.bOp(v2, (i, a, b) -> ($type$)(a - b)));
 834     }
 835 
 836     @Override
 837     @ForceInline
 838     public $vectortype$ sub(Vector<$Boxtype$> v, Mask<$Boxtype$> m) {
 839         return blend(sub(v), m);
 840     }
 841 
 842     @Override
 843     @ForceInline
 844     public $vectortype$ mul(Vector<$Boxtype$> o) {
 845         Objects.requireNonNull(o);
 846         $vectortype$ v = ($vectortype$)o;
 847         return VectorIntrinsics.binaryOp(
 848             VECTOR_OP_MUL, $vectortype$.class, $type$.class, LENGTH,
 849             this, v,
 850             (v1, v2) -> v1.bOp(v2, (i, a, b) -> ($type$)(a * b)));
 851     }
 852 
 853     @Override
 854     @ForceInline
 855     public $vectortype$ mul(Vector<$Boxtype$> v, Mask<$Boxtype$> m) {
 856         return blend(mul(v), m);
 857     }
 858 
 859     @Override
 860     @ForceInline
 861     public $vectortype$ min(Vector<$Boxtype$> o) {
 862         Objects.requireNonNull(o);
 863         $vectortype$ v = ($vectortype$)o;
 864         return ($vectortype$) VectorIntrinsics.binaryOp(
 865             VECTOR_OP_MIN, $vectortype$.class, $type$.class, LENGTH,
 866             this, v,
 867             (v1, v2) -> v1.bOp(v2, (i, a, b) -> ($type$) Math.min(a, b)));
 868     }
 869 
 870     @Override
 871     @ForceInline
 872     public $vectortype$ min(Vector<$Boxtype$> v, Mask<$Boxtype$> m) {
 873         return blend(min(v), m);
 874     }
 875 
 876     @Override
 877     @ForceInline
 878     public $vectortype$ max(Vector<$Boxtype$> o) {
 879         Objects.requireNonNull(o);
 880         $vectortype$ v = ($vectortype$)o;
 881         return VectorIntrinsics.binaryOp(
 882             VECTOR_OP_MAX, $vectortype$.class, $type$.class, LENGTH,
 883             this, v,
 884             (v1, v2) -> v1.bOp(v2, (i, a, b) -> ($type$) Math.max(a, b)));
 885         }
 886 
 887     @Override
 888     @ForceInline
 889     public $vectortype$ max(Vector<$Boxtype$> v, Mask<$Boxtype$> m) {
 890         return blend(max(v), m);
 891     }
 892 
 893 #if[BITWISE]
 894     @Override
 895     @ForceInline
 896     public $vectortype$ and(Vector<$Boxtype$> o) {
 897         Objects.requireNonNull(o);
 898         $vectortype$ v = ($vectortype$)o;
 899         return VectorIntrinsics.binaryOp(
 900             VECTOR_OP_AND, $vectortype$.class, $type$.class, LENGTH,
 901             this, v,
 902             (v1, v2) -> v1.bOp(v2, (i, a, b) -> ($type$)(a & b)));
 903     }
 904 
 905     @Override
 906     @ForceInline
 907     public $vectortype$ or(Vector<$Boxtype$> o) {
 908         Objects.requireNonNull(o);
 909         $vectortype$ v = ($vectortype$)o;
 910         return VectorIntrinsics.binaryOp(
 911             VECTOR_OP_OR, $vectortype$.class, $type$.class, LENGTH,
 912             this, v,
 913             (v1, v2) -> v1.bOp(v2, (i, a, b) -> ($type$)(a | b)));
 914     }
 915 
 916     @Override
 917     @ForceInline
 918     public $vectortype$ xor(Vector<$Boxtype$> o) {
 919         Objects.requireNonNull(o);
 920         $vectortype$ v = ($vectortype$)o;
 921         return VectorIntrinsics.binaryOp(
 922             VECTOR_OP_XOR, $vectortype$.class, $type$.class, LENGTH,
 923             this, v,
 924             (v1, v2) -> v1.bOp(v2, (i, a, b) -> ($type$)(a ^ b)));
 925     }
 926 
 927     @Override
 928     @ForceInline
 929     public $vectortype$ and(Vector<$Boxtype$> v, Mask<$Boxtype$> m) {
 930         return blend(and(v), m);
 931     }
 932 
 933     @Override
 934     @ForceInline
 935     public $vectortype$ or(Vector<$Boxtype$> v, Mask<$Boxtype$> m) {
 936         return blend(or(v), m);
 937     }
 938 
 939     @Override
 940     @ForceInline
 941     public $vectortype$ xor(Vector<$Boxtype$> v, Mask<$Boxtype$> m) {
 942         return blend(xor(v), m);
 943     }
 944 #end[BITWISE]
 945 
 946 #if[byte]
 947     @Override
 948     @ForceInline
 949     public $vectortype$ shiftL(int s) {
 950         return VectorIntrinsics.broadcastInt(
 951             VECTOR_OP_LSHIFT, $vectortype$.class, $type$.class, LENGTH,
 952             this, s,
 953             (v, i) -> v.uOp((__, a) -> ($type$) (a << (i & 7))));
 954     }
 955 
 956     @Override
 957     @ForceInline
 958     public $vectortype$ shiftL(int s, Mask<$Boxtype$> m) {
 959         return blend(shiftL(s), m);
 960     }
 961 
 962     @Override
 963     @ForceInline
 964     public $vectortype$ shiftR(int s) {
 965         return VectorIntrinsics.broadcastInt(
 966             VECTOR_OP_URSHIFT, $vectortype$.class, $type$.class, LENGTH,
 967             this, s,
 968             (v, i) -> v.uOp((__, a) -> ($type$) ((a & 0xFF) >>> (i & 7))));
 969     }
 970 
 971     @Override
 972     @ForceInline
 973     public $vectortype$ shiftR(int s, Mask<$Boxtype$> m) {
 974         return blend(shiftR(s), m);
 975     }
 976 
 977     @Override
 978     @ForceInline
 979     public $vectortype$ aShiftR(int s) {
 980         return VectorIntrinsics.broadcastInt(
 981             VECTOR_OP_RSHIFT, $vectortype$.class, $type$.class, LENGTH,
 982             this, s,
 983             (v, i) -> v.uOp((__, a) -> ($type$) (a >> (i & 7))));
 984     }
 985 
 986     @Override
 987     @ForceInline
 988     public $vectortype$ aShiftR(int s, Mask<$Boxtype$> m) {
 989         return blend(aShiftR(s), m);
 990     }
 991 #end[byte]
 992 #if[short]
 993     @Override
 994     @ForceInline
 995     public $vectortype$ shiftL(int s) {
 996         return VectorIntrinsics.broadcastInt(
 997             VECTOR_OP_LSHIFT, $vectortype$.class, $type$.class, LENGTH,
 998             this, s,
 999             (v, i) -> v.uOp((__, a) -> ($type$) (a << (i & 15))));
1000     }
1001 
1002     @Override
1003     @ForceInline
1004     public $vectortype$ shiftL(int s, Mask<$Boxtype$> m) {
1005         return blend(shiftL(s), m);
1006     }
1007 
1008     @Override
1009     @ForceInline
1010     public $vectortype$ shiftR(int s) {
1011         return VectorIntrinsics.broadcastInt(
1012             VECTOR_OP_URSHIFT, $vectortype$.class, $type$.class, LENGTH,
1013             this, s,
1014             (v, i) -> v.uOp((__, a) -> ($type$) ((a & 0xFFFF) >>> (i & 15))));
1015     }
1016 
1017     @Override
1018     @ForceInline
1019     public $vectortype$ shiftR(int s, Mask<$Boxtype$> m) {
1020         return blend(shiftR(s), m);
1021     }
1022 
1023     @Override
1024     @ForceInline
1025     public $vectortype$ aShiftR(int s) {
1026         return VectorIntrinsics.broadcastInt(
1027             VECTOR_OP_RSHIFT, $vectortype$.class, $type$.class, LENGTH,
1028             this, s,
1029             (v, i) -> v.uOp((__, a) -> ($type$) (a >> (i & 15))));
1030     }
1031 
1032     @Override
1033     @ForceInline
1034     public $vectortype$ aShiftR(int s, Mask<$Boxtype$> m) {
1035         return blend(aShiftR(s), m);
1036     }
1037 #end[short]
1038 #if[intOrLong]
1039     @Override
1040     @ForceInline
1041     public $vectortype$ shiftL(int s) {
1042         return VectorIntrinsics.broadcastInt(
1043             VECTOR_OP_LSHIFT, $vectortype$.class, $type$.class, LENGTH,
1044             this, s,
1045             (v, i) -> v.uOp((__, a) -> ($type$) (a << i)));
1046     }
1047 
1048     @Override
1049     @ForceInline
1050     public $vectortype$ shiftL(int s, Mask<$Boxtype$> m) {
1051         return blend(shiftL(s), m);
1052     }
1053 
1054     @Override
1055     @ForceInline
1056     public $vectortype$ shiftR(int s) {
1057         return VectorIntrinsics.broadcastInt(
1058             VECTOR_OP_URSHIFT, $vectortype$.class, $type$.class, LENGTH,
1059             this, s,
1060             (v, i) -> v.uOp((__, a) -> ($type$) (a >>> i)));
1061     }
1062 
1063     @Override
1064     @ForceInline
1065     public $vectortype$ shiftR(int s, Mask<$Boxtype$> m) {
1066         return blend(shiftR(s), m);
1067     }
1068 
1069     @Override
1070     @ForceInline
1071     public $vectortype$ aShiftR(int s) {
1072         return VectorIntrinsics.broadcastInt(
1073             VECTOR_OP_RSHIFT, $vectortype$.class, $type$.class, LENGTH,
1074             this, s,
1075             (v, i) -> v.uOp((__, a) -> ($type$) (a >> i)));
1076     }
1077 
1078     @Override
1079     @ForceInline
1080     public $vectortype$ aShiftR(int s, Mask<$Boxtype$> m) {
1081         return blend(aShiftR(s), m);
1082     }
1083 
1084     @Override
1085     @ForceInline
1086     public $vectortype$ shiftL(Vector<$Boxtype$> s) {
1087         $vectortype$ shiftv = ($vectortype$)s;
1088         // As per shift specification for Java, mask the shift count.
1089         shiftv = shiftv.and($abstractvectortype$.broadcast(SPECIES, {#if[int]?0x1f:0x3f}));
1090         return VectorIntrinsics.binaryOp(
1091             VECTOR_OP_LSHIFT, $vectortype$.class, $type$.class, LENGTH,
1092             this, shiftv,
1093             (v1, v2) -> v1.bOp(v2,(i,a, b) -> ($type$) (a << b)));
1094     }
1095 
1096     @Override
1097     @ForceInline
1098     public $vectortype$ shiftR(Vector<$Boxtype$> s) {
1099         $vectortype$ shiftv = ($vectortype$)s;
1100         // As per shift specification for Java, mask the shift count.
1101         shiftv = shiftv.and($abstractvectortype$.broadcast(SPECIES, {#if[int]?0x1f:0x3f}));
1102         return VectorIntrinsics.binaryOp(
1103             VECTOR_OP_URSHIFT, $vectortype$.class, $type$.class, LENGTH,
1104             this, shiftv,
1105             (v1, v2) -> v1.bOp(v2,(i,a, b) -> ($type$) (a >>> b)));
1106     }
1107 
1108     @Override
1109     @ForceInline
1110     public $vectortype$ aShiftR(Vector<$Boxtype$> s) {
1111         $vectortype$ shiftv = ($vectortype$)s;
1112         // As per shift specification for Java, mask the shift count.
1113         shiftv = shiftv.and($abstractvectortype$.broadcast(SPECIES, {#if[int]?0x1f:0x3f}));
1114         return VectorIntrinsics.binaryOp(
1115             VECTOR_OP_RSHIFT, $vectortype$.class, $type$.class, LENGTH,
1116             this, shiftv,
1117             (v1, v2) -> v1.bOp(v2,(i,a, b) -> ($type$) (a >> b)));
1118     }
1119 #end[intOrLong]
1120     // Ternary operations
1121 
1122 #if[FP]
1123     @Override
1124     @ForceInline
1125     public $vectortype$ fma(Vector<$Boxtype$> o1, Vector<$Boxtype$> o2) {
1126         Objects.requireNonNull(o1);
1127         Objects.requireNonNull(o2);
1128         $vectortype$ v1 = ($vectortype$)o1;
1129         $vectortype$ v2 = ($vectortype$)o2;
1130         return VectorIntrinsics.ternaryOp(
1131             VECTOR_OP_FMA, $vectortype$.class, $type$.class, LENGTH,
1132             this, v1, v2,
1133             (w1, w2, w3) -> w1.tOp(w2, w3, (i, a, b, c) -> Math.fma(a, b, c)));
1134     }
1135 #end[FP]
1136 
1137     // Type specific horizontal reductions
1138 #if[BITWISE]
1139 
1140     @Override
1141     @ForceInline
1142     public $type$ addAll() {
1143         return ($type$) VectorIntrinsics.reductionCoerced(
1144             VECTOR_OP_ADD, $vectortype$.class, $type$.class, LENGTH,
1145             this,
1146             v -> (long) v.rOp(($type$) 0, (i, a, b) -> ($type$) (a + b)));
1147     }
1148 
1149     @Override
1150     @ForceInline
1151     public $type$ andAll() {
1152         return ($type$) VectorIntrinsics.reductionCoerced(
1153             VECTOR_OP_AND, $vectortype$.class, $type$.class, LENGTH,
1154             this,
1155             v -> (long) v.rOp(($type$) -1, (i, a, b) -> ($type$) (a & b)));
1156     }
1157 
1158     @Override
1159     @ForceInline
1160     public $type$ andAll(Mask<$Boxtype$> m) {
1161         return blend(($vectortype$)$abstractvectortype$.broadcast(SPECIES, ($type$) -1), m).andAll();
1162     }
1163 
1164     @Override
1165     @ForceInline
1166     public $type$ minAll() {
1167         return ($type$) VectorIntrinsics.reductionCoerced(
1168             VECTOR_OP_MIN, $vectortype$.class, $type$.class, LENGTH,
1169             this,
1170             v -> (long) v.rOp($Boxtype$.MAX_VALUE , (i, a, b) -> ($type$) Math.min(a, b)));
1171     }
1172 
1173     @Override
1174     @ForceInline
1175     public $type$ maxAll() {
1176         return ($type$) VectorIntrinsics.reductionCoerced(
1177             VECTOR_OP_MAX, $vectortype$.class, $type$.class, LENGTH,
1178             this,
1179             v -> (long) v.rOp($Boxtype$.MIN_VALUE , (i, a, b) -> ($type$) Math.max(a, b)));
1180     }
1181 
1182     @Override
1183     @ForceInline
1184     public $type$ mulAll() {
1185         return ($type$) VectorIntrinsics.reductionCoerced(
1186             VECTOR_OP_MUL, $vectortype$.class, $type$.class, LENGTH,
1187             this,
1188             v -> (long) v.rOp(($type$) 1, (i, a, b) -> ($type$) (a * b)));
1189     }
1190 
1191     @Override
1192     @ForceInline
1193     public $type$ orAll() {
1194         return ($type$) VectorIntrinsics.reductionCoerced(
1195             VECTOR_OP_OR, $vectortype$.class, $type$.class, LENGTH,
1196             this,
1197             v -> (long) v.rOp(($type$) 0, (i, a, b) -> ($type$) (a | b)));
1198     }
1199 
1200     @Override
1201     @ForceInline
1202     public $type$ orAll(Mask<$Boxtype$> m) {
1203         return blend(($vectortype$)$abstractvectortype$.broadcast(SPECIES, ($type$) 0), m).orAll();
1204     }
1205 
1206     @Override
1207     @ForceInline
1208     public $type$ xorAll() {
1209         return ($type$) VectorIntrinsics.reductionCoerced(
1210             VECTOR_OP_XOR, $vectortype$.class, $type$.class, LENGTH,
1211             this,
1212             v -> (long) v.rOp(($type$) 0, (i, a, b) -> ($type$) (a ^ b)));
1213     }
1214 
1215     @Override
1216     @ForceInline
1217     public $type$ xorAll(Mask<$Boxtype$> m) {
1218         return blend(($vectortype$)$abstractvectortype$.broadcast(SPECIES, ($type$) 0), m).xorAll();
1219     }
1220 #end[BITWISE]
1221 
1222 #if[FP]
1223     @Override
1224     @ForceInline
1225     public $type$ addAll() {
1226         $bitstype$ bits = ($bitstype$) VectorIntrinsics.reductionCoerced(
1227                                 VECTOR_OP_ADD, $vectortype$.class, $type$.class, LENGTH,
1228                                 this,
1229                                 v -> {
1230                                     $type$ r = v.rOp(($type$) 0, (i, a, b) -> ($type$) (a + b));
1231                                     return (long)$Type$.$type$To$Bitstype$Bits(r);
1232                                 });
1233         return $Type$.$bitstype$BitsTo$Fptype$(bits);
1234     }
1235 
1236     @Override
1237     @ForceInline
1238     public $type$ mulAll() {
1239         $bitstype$ bits = ($bitstype$) VectorIntrinsics.reductionCoerced(
1240                                 VECTOR_OP_MUL, $vectortype$.class, $type$.class, LENGTH,
1241                                 this,
1242                                 v -> {
1243                                     $type$ r = v.rOp(($type$) 1, (i, a, b) -> ($type$) (a * b));
1244                                     return (long)$Type$.$type$To$Bitstype$Bits(r);
1245                                 });
1246         return $Type$.$bitstype$BitsTo$Fptype$(bits);
1247     }
1248 
1249     @Override
1250     @ForceInline
1251     public $type$ minAll() {
1252         $bitstype$ bits = ($bitstype$) VectorIntrinsics.reductionCoerced(
1253                                 VECTOR_OP_MIN, $vectortype$.class, $type$.class, LENGTH,
1254                                 this,
1255                                 v -> {
1256                                     $type$ r = v.rOp($Boxtype$.POSITIVE_INFINITY , (i, a, b) -> ($type$) Math.min(a, b));
1257                                     return (long)$Type$.$type$To$Bitstype$Bits(r);
1258                                 });
1259         return $Type$.$bitstype$BitsTo$Fptype$(bits);
1260     }
1261 
1262     @Override
1263     @ForceInline
1264     public $type$ maxAll() {
1265         $bitstype$ bits = ($bitstype$) VectorIntrinsics.reductionCoerced(
1266                                 VECTOR_OP_MAX, $vectortype$.class, $type$.class, LENGTH,
1267                                 this,
1268                                 v -> {
1269                                     $type$ r = v.rOp($Boxtype$.NEGATIVE_INFINITY, (i, a, b) -> ($type$) Math.max(a, b));
1270                                     return (long)$Type$.$type$To$Bitstype$Bits(r);
1271                                 });
1272         return $Type$.$bitstype$BitsTo$Fptype$(bits);
1273     }
1274 
1275 #end[FP]
1276 
1277     @Override
1278     @ForceInline
1279     public $type$ addAll(Mask<$Boxtype$> m) {
1280         return blend(($vectortype$)$abstractvectortype$.broadcast(SPECIES, ($type$) 0), m).addAll();
1281     }
1282 
1283 
1284     @Override
1285     @ForceInline
1286     public $type$ mulAll(Mask<$Boxtype$> m) {
1287         return blend(($vectortype$)$abstractvectortype$.broadcast(SPECIES, ($type$) 1), m).mulAll();
1288     }
1289 
1290     @Override
1291     @ForceInline
1292     public $type$ minAll(Mask<$Boxtype$> m) {
1293         return blend(($vectortype$)$abstractvectortype$.broadcast(SPECIES, $Boxtype$.MAX_VALUE), m).minAll();
1294     }
1295 
1296     @Override
1297     @ForceInline
1298     public $type$ maxAll(Mask<$Boxtype$> m) {
1299         return blend(($vectortype$)$abstractvectortype$.broadcast(SPECIES, $Boxtype$.MIN_VALUE), m).maxAll();
1300     }
1301 
1302     @Override
1303     @ForceInline
1304     public Shuffle<$Boxtype$> toShuffle() {
1305         $type$[] a = toArray();
1306         int[] sa = new int[a.length];
1307         for (int i = 0; i < a.length; i++) {
1308             sa[i] = (int) a[i];
1309         }
1310         return $abstractvectortype$.shuffleFromArray(SPECIES, sa, 0);
1311     }
1312 
1313     // Memory operations
1314 
1315     private static final int ARRAY_SHIFT         = 31 - Integer.numberOfLeadingZeros(Unsafe.ARRAY_$TYPE$_INDEX_SCALE);
1316     private static final int BOOLEAN_ARRAY_SHIFT = 31 - Integer.numberOfLeadingZeros(Unsafe.ARRAY_BOOLEAN_INDEX_SCALE);
1317 
1318     @Override
1319     @ForceInline
1320     public void intoArray($type$[] a, int ix) {
1321         Objects.requireNonNull(a);
1322         ix = VectorIntrinsics.checkIndex(ix, a.length, LENGTH);
1323         VectorIntrinsics.store($vectortype$.class, $type$.class, LENGTH,
1324                                a, (((long) ix) << ARRAY_SHIFT) + Unsafe.ARRAY_$TYPE$_BASE_OFFSET,
1325                                this,
1326                                a, ix,
1327                                (arr, idx, v) -> v.forEach((i, e) -> arr[idx + i] = e));
1328     }
1329 
1330     @Override
1331     @ForceInline
1332     public final void intoArray($type$[] a, int ax, Mask<$Boxtype$> m) {
1333         $abstractvectortype$ oldVal = $abstractvectortype$.fromArray(SPECIES, a, ax);
1334         $abstractvectortype$ newVal = oldVal.blend(this, m);
1335         newVal.intoArray(a, ax);
1336     }
1337 #if[!byteOrShort]
1338     @Override
1339     @ForceInline
1340     public void intoArray($type$[] a, int ix, int[] b, int iy) {
1341 #if[longOrDouble64]
1342         this.intoArray(a, ix + b[iy]);
1343 #else[longOrDouble64]
1344         Objects.requireNonNull(a);
1345         Objects.requireNonNull(b);
1346 
1347         // Index vector: vix[0:n] = i -> ix + indexMap[iy + i]
1348         IntVector vix = IntVector.fromArray(INDEX_SPECIES, b, iy).add(ix);
1349 
1350         vix = VectorIntrinsics.checkIndex(vix, a.length);
1351 
1352         VectorIntrinsics.storeWithMap($vectortype$.class, $type$.class, LENGTH, $vectorindextype$,
1353                                a, Unsafe.ARRAY_$TYPE$_BASE_OFFSET, vix,
1354                                this,
1355                                a, ix, b, iy,
1356                                (arr, idx, v, indexMap, idy) -> v.forEach((i, e) -> arr[idx+indexMap[idy+i]] = e));
1357 #end[longOrDouble64]
1358     }
1359 
1360      @Override
1361      @ForceInline
1362      public final void intoArray($type$[] a, int ax, Mask<$Boxtype$> m, int[] b, int iy) {
1363          // @@@ This can result in out of bounds errors for unset mask lanes
1364          $abstractvectortype$ oldVal = $abstractvectortype$.fromArray(SPECIES, a, ax, b, iy);
1365          $abstractvectortype$ newVal = oldVal.blend(this, m);
1366          newVal.intoArray(a, ax, b, iy);
1367      }
1368 #end[!byteOrShort]
1369 
1370     @Override
1371     @ForceInline
1372     public void intoByteArray(byte[] a, int ix) {
1373         Objects.requireNonNull(a);
1374         ix = VectorIntrinsics.checkIndex(ix, a.length, bitSize() / Byte.SIZE);
1375         VectorIntrinsics.store($vectortype$.class, $type$.class, LENGTH,
1376                                a, ((long) ix) + Unsafe.ARRAY_BYTE_BASE_OFFSET,
1377                                this,
1378                                a, ix,
1379                                (c, idx, v) -> {
1380                                    ByteBuffer bbc = ByteBuffer.wrap(c, idx, c.length - idx).order(ByteOrder.nativeOrder());
1381                                    $Type$Buffer tb = bbc{#if[byte]?;:.as$Type$Buffer();}
1382                                    v.forEach((i, e) -> tb.put(e));
1383                                });
1384     }
1385 
1386     @Override
1387     @ForceInline
1388     public final void intoByteArray(byte[] a, int ix, Mask<$Boxtype$> m) {
1389         $vectortype$ oldVal = ($vectortype$) $abstractvectortype$.fromByteArray(SPECIES, a, ix);
1390         $vectortype$ newVal = oldVal.blend(this, m);
1391         newVal.intoByteArray(a, ix);
1392     }
1393 
1394     @Override
1395     @ForceInline
1396     public void intoByteBuffer(ByteBuffer bb, int ix) {
1397         if (bb.order() != ByteOrder.nativeOrder()) {
1398             throw new IllegalArgumentException();
1399         }
1400         if (bb.isReadOnly()) {
1401             throw new ReadOnlyBufferException();
1402         }
1403         ix = VectorIntrinsics.checkIndex(ix, bb.limit(), bitSize() / Byte.SIZE);
1404         VectorIntrinsics.store($vectortype$.class, $type$.class, LENGTH,
1405                                U.getReference(bb, BYTE_BUFFER_HB), ix + U.getLong(bb, BUFFER_ADDRESS),
1406                                this,
1407                                bb, ix,
1408                                (c, idx, v) -> {
1409                                    ByteBuffer bbc = c.duplicate().position(idx).order(ByteOrder.nativeOrder());
1410                                    $Type$Buffer tb = bbc{#if[byte]?;:.as$Type$Buffer();}
1411                                    v.forEach((i, e) -> tb.put(e));
1412                                });
1413     }
1414 
1415     @Override
1416     @ForceInline
1417     public void intoByteBuffer(ByteBuffer bb, int ix, Mask<$Boxtype$> m) {
1418         $vectortype$ oldVal = ($vectortype$) $abstractvectortype$.fromByteBuffer(SPECIES, bb, ix);
1419         $vectortype$ newVal = oldVal.blend(this, m);
1420         newVal.intoByteBuffer(bb, ix);
1421     }
1422 
1423     //
1424 
1425     @Override
1426     public String toString() {
1427         return Arrays.toString(getElements());
1428     }
1429 
1430     @Override
1431     public boolean equals(Object o) {
1432         if (this == o) return true;
1433         if (o == null || this.getClass() != o.getClass()) return false;
1434 
1435         $vectortype$ that = ($vectortype$) o;
1436         return this.equal(that).allTrue();
1437     }
1438 
1439     @Override
1440     public int hashCode() {
1441         return Arrays.hashCode(vec);
1442     }
1443 
1444     // Binary test
1445 
1446     @Override
1447     $masktype$ bTest(Vector<$Boxtype$> o, FBinTest f) {
1448         $type$[] vec1 = getElements();
1449         $type$[] vec2 = (($vectortype$)o).getElements();
1450         boolean[] bits = new boolean[length()];
1451         for (int i = 0; i < length(); i++){
1452             bits[i] = f.apply(i, vec1[i], vec2[i]);
1453         }
1454         return new $masktype$(bits);
1455     }
1456 
1457     // Comparisons
1458 
1459     @Override
1460     @ForceInline
1461     public $masktype$ equal(Vector<$Boxtype$> o) {
1462         Objects.requireNonNull(o);
1463         $vectortype$ v = ($vectortype$)o;
1464 
1465         return VectorIntrinsics.compare(
1466             BT_eq, $vectortype$.class, $masktype$.class, $type$.class, LENGTH,
1467             this, v,
1468             (v1, v2) -> v1.bTest(v2, (i, a, b) -> a == b));
1469     }
1470 
1471     @Override
1472     @ForceInline
1473     public $masktype$ notEqual(Vector<$Boxtype$> o) {
1474         Objects.requireNonNull(o);
1475         $vectortype$ v = ($vectortype$)o;
1476 
1477         return VectorIntrinsics.compare(
1478             BT_ne, $vectortype$.class, $masktype$.class, $type$.class, LENGTH,
1479             this, v,
1480             (v1, v2) -> v1.bTest(v2, (i, a, b) -> a != b));
1481     }
1482 
1483     @Override
1484     @ForceInline
1485     public $masktype$ lessThan(Vector<$Boxtype$> o) {
1486         Objects.requireNonNull(o);
1487         $vectortype$ v = ($vectortype$)o;
1488 
1489         return VectorIntrinsics.compare(
1490             BT_lt, $vectortype$.class, $masktype$.class, $type$.class, LENGTH,
1491             this, v,
1492             (v1, v2) -> v1.bTest(v2, (i, a, b) -> a < b));
1493     }
1494 
1495     @Override
1496     @ForceInline
1497     public $masktype$ lessThanEq(Vector<$Boxtype$> o) {
1498         Objects.requireNonNull(o);
1499         $vectortype$ v = ($vectortype$)o;
1500 
1501         return VectorIntrinsics.compare(
1502             BT_le, $vectortype$.class, $masktype$.class, $type$.class, LENGTH,
1503             this, v,
1504             (v1, v2) -> v1.bTest(v2, (i, a, b) -> a <= b));
1505     }
1506 
1507     @Override
1508     @ForceInline
1509     public $masktype$ greaterThan(Vector<$Boxtype$> o) {
1510         Objects.requireNonNull(o);
1511         $vectortype$ v = ($vectortype$)o;
1512 
1513         return ($masktype$) VectorIntrinsics.compare(
1514             BT_gt, $vectortype$.class, $masktype$.class, $type$.class, LENGTH,
1515             this, v,
1516             (v1, v2) -> v1.bTest(v2, (i, a, b) -> a > b));
1517     }
1518 
1519     @Override
1520     @ForceInline
1521     public $masktype$ greaterThanEq(Vector<$Boxtype$> o) {
1522         Objects.requireNonNull(o);
1523         $vectortype$ v = ($vectortype$)o;
1524 
1525         return VectorIntrinsics.compare(
1526             BT_ge, $vectortype$.class, $masktype$.class, $type$.class, LENGTH,
1527             this, v,
1528             (v1, v2) -> v1.bTest(v2, (i, a, b) -> a >= b));
1529     }
1530 
1531     // Foreach
1532 
1533     @Override
1534     void forEach(FUnCon f) {
1535         $type$[] vec = getElements();
1536         for (int i = 0; i < length(); i++) {
1537             f.apply(i, vec[i]);
1538         }
1539     }
1540 
1541     @Override
1542     void forEach(Mask<$Boxtype$> o, FUnCon f) {
1543         boolean[] mbits = (($masktype$)o).getBits();
1544         forEach((i, a) -> {
1545             if (mbits[i]) { f.apply(i, a); }
1546         });
1547     }
1548 
1549 #if[FP]
1550     $bitsvectortype$ toBits() {
1551         $type$[] vec = getElements();
1552         $bitstype$[] res = new $bitstype$[this.species().length()];
1553         for(int i = 0; i < this.species().length(); i++){
1554             res[i] = $Type$.$type$To$Bitstype$Bits(vec[i]);
1555         }
1556         return new $bitsvectortype$(res);
1557     }
1558 #end[FP]
1559 
1560 #if[intOrLong]
1561     $fpvectortype$ toFP() {
1562         $type$[] vec = getElements();
1563         $fptype$[] res = new $fptype$[this.species().length()];
1564         for(int i = 0; i < this.species().length(); i++){
1565             res[i] = $Boxfptype$.$bitstype$BitsTo$Fptype$(vec[i]);
1566         }
1567         return new $fpvectortype$(res);
1568     }
1569 #end[intOrLong]
1570 
1571     @Override
1572     public $vectortype$ rotateEL(int j) {
1573         $type$[] vec = getElements();
1574         $type$[] res = new $type$[length()];
1575         for (int i = 0; i < length(); i++){
1576             res[(j + i) % length()] = vec[i];
1577         }
1578         return new $vectortype$(res);
1579     }
1580 
1581     @Override
1582     public $vectortype$ rotateER(int j) {
1583         $type$[] vec = getElements();
1584         $type$[] res = new $type$[length()];
1585         for (int i = 0; i < length(); i++){
1586             int z = i - j;
1587             if(j < 0) {
1588                 res[length() + z] = vec[i];
1589             } else {
1590                 res[z] = vec[i];
1591             }
1592         }
1593         return new $vectortype$(res);
1594     }
1595 
1596     @Override
1597     public $vectortype$ shiftEL(int j) {
1598         $type$[] vec = getElements();
1599         $type$[] res = new $type$[length()];
1600         for (int i = 0; i < length() - j; i++) {
1601             res[i] = vec[i + j];
1602         }
1603         return new $vectortype$(res);
1604     }
1605 
1606     @Override
1607     public $vectortype$ shiftER(int j) {
1608         $type$[] vec = getElements();
1609         $type$[] res = new $type$[length()];
1610         for (int i = 0; i < length() - j; i++){
1611             res[i + j] = vec[i];
1612         }
1613         return new $vectortype$(res);
1614     }
1615 
1616     @Override
1617     @ForceInline
1618     public $vectortype$ rearrange(Vector<$Boxtype$> v,
1619                                   Shuffle<$Boxtype$> s, Mask<$Boxtype$> m) {
1620         return this.rearrange(s).blend(v.rearrange(s), m);
1621     }
1622 
1623     @Override
1624     @ForceInline
1625     public $vectortype$ rearrange(Shuffle<$Boxtype$> o1) {
1626         Objects.requireNonNull(o1);
1627         $shuffletype$ s =  ($shuffletype$)o1;
1628 
1629         return VectorIntrinsics.rearrangeOp(
1630             $vectortype$.class, $shuffletype$.class, $type$.class, LENGTH,
1631             this, s,
1632             (v1, s_) -> v1.uOp((i, a) -> {
1633                 int ei = s_.getElement(i);
1634                 return v1.get(ei);
1635             }));
1636     }
1637 
1638     @Override
1639     @ForceInline
1640     public $vectortype$ blend(Vector<$Boxtype$> o1, Mask<$Boxtype$> o2) {
1641         Objects.requireNonNull(o1);
1642         Objects.requireNonNull(o2);
1643         $vectortype$ v = ($vectortype$)o1;
1644         $masktype$   m = ($masktype$)o2;
1645 
1646         return VectorIntrinsics.blend(
1647             $vectortype$.class, $masktype$.class, $type$.class, LENGTH,
1648             this, v, m,
1649             (v1, v2, m_) -> v1.bOp(v2, (i, a, b) -> m_.getElement(i) ? b : a));
1650     }
1651 
1652     // Accessors
1653 
1654 #if[FP]
1655     @Override
1656     public $type$ get(int i) {
1657         if (i < 0 || i >= LENGTH) {
1658             throw new IllegalArgumentException("Index " + i + " must be zero or positive, and less than " + LENGTH);
1659         }
1660         $bitstype$ bits = ($bitstype$) VectorIntrinsics.extract(
1661                                 $vectortype$.class, $type$.class, LENGTH,
1662                                 this, i,
1663                                 (vec, ix) -> {
1664                                     $type$[] vecarr = vec.getElements();
1665                                     return (long)$Type$.$type$To$Bitstype$Bits(vecarr[ix]);
1666                                 });
1667         return $Type$.$bitstype$BitsTo$Fptype$(bits);
1668     }
1669 
1670     @Override
1671     public $vectortype$ with(int i, $type$ e) {
1672         if (i < 0 || i >= LENGTH) {
1673             throw new IllegalArgumentException("Index " + i + " must be zero or positive, and less than " + LENGTH);
1674         }
1675         return VectorIntrinsics.insert(
1676                                 $vectortype$.class, $type$.class, LENGTH,
1677                                 this, i, (long)$Type$.$type$To$Bitstype$Bits(e),
1678                                 (v, ix, bits) -> {
1679                                     $type$[] res = v.getElements().clone();
1680                                     res[ix] = $Type$.$bitstype$BitsTo$Type$(($bitstype$)bits);
1681                                     return new $vectortype$(res);
1682                                 });
1683     }
1684 #else[FP]
1685     @Override
1686     public $type$ get(int i) {
1687         if (i < 0 || i >= LENGTH) {
1688             throw new IllegalArgumentException("Index " + i + " must be zero or positive, and less than " + LENGTH);
1689         }
1690         return ($type$) VectorIntrinsics.extract(
1691                                 $vectortype$.class, $type$.class, LENGTH,
1692                                 this, i,
1693                                 (vec, ix) -> {
1694                                     $type$[] vecarr = vec.getElements();
1695                                     return (long)vecarr[ix];
1696                                 });
1697     }
1698 
1699     @Override
1700     public $vectortype$ with(int i, $type$ e) {
1701         if (i < 0 || i >= LENGTH) {
1702             throw new IllegalArgumentException("Index " + i + " must be zero or positive, and less than " + LENGTH);
1703         }
1704         return VectorIntrinsics.insert(
1705                                 $vectortype$.class, $type$.class, LENGTH,
1706                                 this, i, (long)e,
1707                                 (v, ix, bits) -> {
1708                                     $type$[] res = v.getElements().clone();
1709                                     res[ix] = ($type$)bits;
1710                                     return new $vectortype$(res);
1711                                 });
1712     }
1713 #end[FP]
1714 
1715     // Mask
1716 
1717     static final class $masktype$ extends AbstractMask<$Boxtype$> {
1718         static final $masktype$ TRUE_MASK = new $masktype$(true);
1719         static final $masktype$ FALSE_MASK = new $masktype$(false);
1720 
1721         private final boolean[] bits; // Don't access directly, use getBits() instead.
1722 
1723         public $masktype$(boolean[] bits) {
1724             this(bits, 0);
1725         }
1726 
1727         public $masktype$(boolean[] bits, int offset) {
1728             boolean[] a = new boolean[species().length()];
1729             for (int i = 0; i < a.length; i++) {
1730                 a[i] = bits[offset + i];
1731             }
1732             this.bits = a;
1733         }
1734 
1735         public $masktype$(boolean val) {
1736             boolean[] bits = new boolean[species().length()];
1737             Arrays.fill(bits, val);
1738             this.bits = bits;
1739         }
1740 
1741         boolean[] getBits() {
1742             return VectorIntrinsics.maybeRebox(this).bits;
1743         }
1744 
1745         @Override
1746         $masktype$ uOp(MUnOp f) {
1747             boolean[] res = new boolean[species().length()];
1748             boolean[] bits = getBits();
1749             for (int i = 0; i < species().length(); i++) {
1750                 res[i] = f.apply(i, bits[i]);
1751             }
1752             return new $masktype$(res);
1753         }
1754 
1755         @Override
1756         $masktype$ bOp(Mask<$Boxtype$> o, MBinOp f) {
1757             boolean[] res = new boolean[species().length()];
1758             boolean[] bits = getBits();
1759             boolean[] mbits = (($masktype$)o).getBits();
1760             for (int i = 0; i < species().length(); i++) {
1761                 res[i] = f.apply(i, bits[i], mbits[i]);
1762             }
1763             return new $masktype$(res);
1764         }
1765 
1766         @Override
1767         public Species<$Boxtype$> species() {
1768             return SPECIES;
1769         }
1770 
1771         @Override
1772         public $vectortype$ toVector() {
1773             $type$[] res = new $type$[species().length()];
1774             boolean[] bits = getBits();
1775             for (int i = 0; i < species().length(); i++) {
1776                 // -1 will result in the most significant bit being set in
1777                 // addition to some or all other bits
1778                 res[i] = ($type$) (bits[i] ? -1 : 0);
1779             }
1780             return new $vectortype$(res);
1781         }
1782 
1783         @Override
1784         @ForceInline
1785         @SuppressWarnings("unchecked")
1786         public <E> Mask<E> cast(Species<E> species) {
1787             if (length() != species.length())
1788                 throw new IllegalArgumentException("Mask length and species length differ");
1789             Class<?> stype = species.elementType();
1790             boolean [] maskArray = toArray();
1791             if (stype == byte.class) {
1792                 return (Mask <E>) new Byte$bits$Vector.Byte$bits$Mask(maskArray);
1793             } else if (stype == short.class) {
1794                 return (Mask <E>) new Short$bits$Vector.Short$bits$Mask(maskArray);
1795             } else if (stype == int.class) {
1796                 return (Mask <E>) new Int$bits$Vector.Int$bits$Mask(maskArray);
1797             } else if (stype == long.class) {
1798                 return (Mask <E>) new Long$bits$Vector.Long$bits$Mask(maskArray);
1799             } else if (stype == float.class) {
1800                 return (Mask <E>) new Float$bits$Vector.Float$bits$Mask(maskArray);
1801             } else if (stype == double.class) {
1802                 return (Mask <E>) new Double$bits$Vector.Double$bits$Mask(maskArray);
1803             } else {
1804                 throw new UnsupportedOperationException("Bad lane type for casting.");
1805             }
1806         }
1807 
1808         // Unary operations
1809 
1810         @Override
1811         @ForceInline
1812         public $masktype$ not() {
1813             return ($masktype$) VectorIntrinsics.unaryOp(
1814                                              VECTOR_OP_NOT, $masktype$.class, $bitstype$.class, LENGTH,
1815                                              this,
1816                                              (m1) -> m1.uOp((i, a) -> !a));
1817         }
1818 
1819         // Binary operations
1820 
1821         @Override
1822         @ForceInline
1823         public $masktype$ and(Mask<$Boxtype$> o) {
1824             Objects.requireNonNull(o);
1825             $masktype$ m = ($masktype$)o;
1826             return VectorIntrinsics.binaryOp(VECTOR_OP_AND, $masktype$.class, $bitstype$.class, LENGTH,
1827                                              this, m,
1828                                              (m1, m2) -> m1.bOp(m2, (i, a, b) -> a & b));
1829         }
1830 
1831         @Override
1832         @ForceInline
1833         public $masktype$ or(Mask<$Boxtype$> o) {
1834             Objects.requireNonNull(o);
1835             $masktype$ m = ($masktype$)o;
1836             return VectorIntrinsics.binaryOp(VECTOR_OP_OR, $masktype$.class, $bitstype$.class, LENGTH,
1837                                              this, m,
1838                                              (m1, m2) -> m1.bOp(m2, (i, a, b) -> a | b));
1839         }
1840 
1841         // Reductions
1842 
1843         @Override
1844         @ForceInline
1845         public boolean anyTrue() {
1846             return VectorIntrinsics.test(BT_ne, $masktype$.class, $bitstype$.class, LENGTH,
1847                                          this, this,
1848                                          (m, __) -> anyTrueHelper((($masktype$)m).getBits()));
1849         }
1850 
1851         @Override
1852         @ForceInline
1853         public boolean allTrue() {
1854             return VectorIntrinsics.test(BT_overflow, $masktype$.class, $bitstype$.class, LENGTH,
1855                                          this, $abstractvectortype$.maskAllTrue(species()),
1856                                          (m, __) -> allTrueHelper((($masktype$)m).getBits()));
1857         }
1858     }
1859 
1860     // Shuffle
1861 
1862     static final class $shuffletype$ extends AbstractShuffle<$Boxtype$> {
1863         $shuffletype$(byte[] reorder) {
1864             super(reorder);
1865         }
1866 
1867         public $shuffletype$(int[] reorder) {
1868             super(reorder);
1869         }
1870 
1871         public $shuffletype$(int[] reorder, int i) {
1872             super(reorder, i);
1873         }
1874 
1875         public $shuffletype$(IntUnaryOperator f) {
1876             super(f);
1877         }
1878 
1879         @Override
1880         public Species<$Boxtype$> species() {
1881             return SPECIES;
1882         }
1883 
1884         @Override
1885         public $abstractvectortype$ toVector() {
1886             $type$[] va = new $type$[SPECIES.length()];
1887             for (int i = 0; i < va.length; i++) {
1888               va[i] = ($type$) getElement(i);
1889             }
1890             return $abstractvectortype$.fromArray(SPECIES, va, 0);
1891         }
1892 
1893         @Override
1894         @ForceInline
1895         @SuppressWarnings("unchecked")
1896         public <F> Shuffle<F> cast(Species<F> species) {
1897             if (length() != species.length())
1898                 throw new IllegalArgumentException("Shuffle length and species length differ");
1899             Class<?> stype = species.elementType();
1900             int [] shuffleArray = toArray();
1901             if (stype == byte.class) {
1902                 return (Shuffle<F>) new Byte$bits$Vector.Byte$bits$Shuffle(shuffleArray);
1903             } else if (stype == short.class) {
1904                 return (Shuffle<F>) new Short$bits$Vector.Short$bits$Shuffle(shuffleArray);
1905             } else if (stype == int.class) {
1906                 return (Shuffle<F>) new Int$bits$Vector.Int$bits$Shuffle(shuffleArray);
1907             } else if (stype == long.class) {
1908                 return (Shuffle<F>) new Long$bits$Vector.Long$bits$Shuffle(shuffleArray);
1909             } else if (stype == float.class) {
1910                 return (Shuffle<F>) new Float$bits$Vector.Float$bits$Shuffle(shuffleArray);
1911             } else if (stype == double.class) {
1912                 return (Shuffle<F>) new Double$bits$Vector.Double$bits$Shuffle(shuffleArray);
1913             } else {
1914                 throw new UnsupportedOperationException("Bad lane type for casting.");
1915             }
1916         }
1917 
1918         @Override
1919         public $shuffletype$ rearrange(Vector.Shuffle<$Boxtype$> o) {
1920             $shuffletype$ s = ($shuffletype$) o;
1921             byte[] r = new byte[reorder.length];
1922             for (int i = 0; i < reorder.length; i++) {
1923                 r[i] = reorder[s.reorder[i]];
1924             }
1925             return new $shuffletype$(r);
1926         }
1927     }
1928 
1929     // Species
1930 
1931     @Override
1932     public Species<$Boxtype$> species() {
1933         return SPECIES;
1934     }
1935 }