예제 #1
0
  private static MethodHandle buildFiller(int nargs) {
    if (nargs <= LEFT_ARGS) return ARRAY_IDENTITY; // no args to fill; return the array unchanged
    // we need room for both mh and a in mh.invoke(a, arg*[nargs])
    final int CHUNK = LEFT_ARGS;
    int rightLen = nargs % CHUNK;
    int midLen = nargs - rightLen;
    if (rightLen == 0) {
      midLen = nargs - (rightLen = CHUNK);
      if (FILL_ARRAY_TO_RIGHT[midLen] == null) {
        // build some precursors from left to right
        for (int j = LEFT_ARGS % CHUNK; j < midLen; j += CHUNK) if (j > LEFT_ARGS) fillToRight(j);
      }
    }
    if (midLen < LEFT_ARGS) rightLen = nargs - (midLen = LEFT_ARGS);
    assert (rightLen > 0);
    MethodHandle midFill = fillToRight(midLen); // recursive fill
    MethodHandle rightFill = FILL_ARRAYS[rightLen].bindTo(midLen); // [midLen..nargs-1]
    assert (midFill.type().parameterCount() == 1 + midLen - LEFT_ARGS);
    assert (rightFill.type().parameterCount() == 1 + rightLen);

    // Combine the two fills:
    //   right(mid(a, x10..x19), x20..x23)
    // The final product will look like this:
    //   right(mid(newArrayLeft(24, x0..x9), x10..x19), x20..x23)
    if (midLen == LEFT_ARGS) return rightFill;
    else return MethodHandles.collectArguments(rightFill, 0, midFill);
  }
예제 #2
0
 private static MethodHandle unbox(Wrapper wrap, boolean cast) {
   EnumMap<Wrapper, MethodHandle> cache = UNBOX_CONVERSIONS[(cast ? 1 : 0)];
   MethodHandle mh = cache.get(wrap);
   if (mh != null) {
     return mh;
   }
   // slow path
   switch (wrap) {
     case OBJECT:
       mh = IDENTITY;
       break;
     case VOID:
       mh = IGNORE;
       break;
   }
   if (mh != null) {
     cache.put(wrap, mh);
     return mh;
   }
   // look up the method
   String name = "unbox" + wrap.wrapperSimpleName();
   MethodType type = unboxType(wrap);
   try {
     mh = IMPL_LOOKUP.findStatic(THIS_CLASS, name, type);
   } catch (ReflectiveOperationException ex) {
     mh = null;
   }
   if (mh != null) {
     mh = MethodHandles.insertArguments(mh, 1, cast);
     cache.put(wrap, mh);
     return mh;
   }
   throw new IllegalArgumentException(
       "cannot find unbox adapter for " + wrap + (cast ? " (cast)" : ""));
 }
예제 #3
0
 private static MethodHandle buildVarargsArray(
     MethodHandle newArray, MethodHandle finisher, int nargs) {
   // Build up the result mh as a sequence of fills like this:
   //   finisher(fill(fill(newArrayWA(23,x1..x10),10,x11..x20),20,x21..x23))
   // The various fill(_,10*I,___*[J]) are reusable.
   int leftLen = Math.min(nargs, LEFT_ARGS); // absorb some arguments immediately
   int rightLen = nargs - leftLen;
   MethodHandle leftCollector = newArray.bindTo(nargs);
   leftCollector = leftCollector.asCollector(Object[].class, leftLen);
   MethodHandle mh = finisher;
   if (rightLen > 0) {
     MethodHandle rightFiller = fillToRight(LEFT_ARGS + rightLen);
     if (mh == ARRAY_IDENTITY) mh = rightFiller;
     else mh = MethodHandles.collectArguments(mh, 0, rightFiller);
   }
   if (mh == ARRAY_IDENTITY) mh = leftCollector;
   else mh = MethodHandles.collectArguments(mh, 0, leftCollector);
   return mh;
 }
예제 #4
0
 /**
  * Return a method that casts its sole argument (an Object) to the given type and returns it as
  * the given type.
  */
 public static MethodHandle cast(Class<?> type) {
   if (type.isPrimitive())
     throw new IllegalArgumentException("cannot cast primitive type " + type);
   MethodHandle mh;
   Wrapper wrap = null;
   EnumMap<Wrapper, MethodHandle> cache = null;
   if (Wrapper.isWrapperType(type)) {
     wrap = Wrapper.forWrapperType(type);
     cache = WRAPPER_CASTS[0];
     mh = cache.get(wrap);
     if (mh != null) return mh;
   }
   mh = MethodHandles.insertArguments(CAST_REFERENCE, 0, type);
   if (cache != null) cache.put(wrap, mh);
   return mh;
 }
예제 #5
0
  public static MethodHandle convertPrimitive(Wrapper wsrc, Wrapper wdst) {
    EnumMap<Wrapper, MethodHandle> cache = CONVERT_PRIMITIVE_FUNCTIONS[wsrc.ordinal()];
    MethodHandle mh = cache.get(wdst);
    if (mh != null) {
      return mh;
    }
    // slow path
    Class<?> src = wsrc.primitiveType();
    Class<?> dst = wdst.primitiveType();
    MethodType type =
        src == void.class ? MethodType.methodType(dst) : MethodType.methodType(dst, src);
    if (wsrc == wdst) {
      mh = identity(src);
    } else if (wsrc == Wrapper.VOID) {
      mh = zeroConstantFunction(wdst);
    } else if (wdst == Wrapper.VOID) {
      mh = MethodHandles.dropArguments(EMPTY, 0, src); // Defer back to MethodHandles.
    } else if (wsrc == Wrapper.OBJECT) {
      mh = unboxCast(dst);
    } else if (wdst == Wrapper.OBJECT) {
      mh = box(src);
    } else {
      assert (src.isPrimitive() && dst.isPrimitive());
      try {
        mh =
            IMPL_LOOKUP.findStatic(
                THIS_CLASS, src.getSimpleName() + "To" + capitalize(dst.getSimpleName()), type);
      } catch (ReflectiveOperationException ex) {
        mh = null;
      }
    }
    if (mh != null) {
      assert (mh.type() == type) : mh;
      cache.put(wdst, mh);
      return mh;
    }

    throw new IllegalArgumentException(
        "cannot find primitive conversion function for "
            + src.getSimpleName()
            + " -> "
            + dst.getSimpleName());
  }
예제 #6
0
  public static MethodHandle zeroConstantFunction(Wrapper wrap) {
    EnumMap<Wrapper, MethodHandle> cache = CONSTANT_FUNCTIONS[0];
    MethodHandle mh = cache.get(wrap);
    if (mh != null) {
      return mh;
    }
    // slow path
    MethodType type = MethodType.methodType(wrap.primitiveType());
    switch (wrap) {
      case VOID:
        mh = EMPTY;
        break;
      case OBJECT:
      case INT:
      case LONG:
      case FLOAT:
      case DOUBLE:
        try {
          mh = IMPL_LOOKUP.findStatic(THIS_CLASS, "zero" + wrap.wrapperSimpleName(), type);
        } catch (ReflectiveOperationException ex) {
          mh = null;
        }
        break;
    }
    if (mh != null) {
      cache.put(wrap, mh);
      return mh;
    }

    // use zeroInt and cast the result
    if (wrap.isSubwordOrInt() && wrap != Wrapper.INT) {
      mh = MethodHandles.explicitCastArguments(zeroConstantFunction(Wrapper.INT), type);
      cache.put(wrap, mh);
      return mh;
    }
    throw new IllegalArgumentException("cannot find zero constant for " + wrap);
  }
예제 #7
0
 public static MethodHandle identity(Class<?> type) {
   if (!type.isPrimitive())
     // Reference identity has been moved into MethodHandles:
     return MethodHandles.identity(type);
   return identity(Wrapper.findPrimitiveType(type));
 }
예제 #8
0
public class ValueConversions {
  private static final Class<?> THIS_CLASS = ValueConversions.class;
  // Do not adjust this except for special platforms:
  private static final int MAX_ARITY;

  static {
    final Object[] values = {255};
    AccessController.doPrivileged(
        new PrivilegedAction<Void>() {
          @Override
          public Void run() {
            values[0] = Integer.getInteger(THIS_CLASS.getName() + ".MAX_ARITY", 255);
            return null;
          }
        });
    MAX_ARITY = (Integer) values[0];
  }

  private static final Lookup IMPL_LOOKUP = MethodHandles.lookup();

  private static EnumMap<Wrapper, MethodHandle>[] newWrapperCaches(int n) {
    @SuppressWarnings("unchecked") // generic array creation
    EnumMap<Wrapper, MethodHandle>[] caches =
        (EnumMap<Wrapper, MethodHandle>[]) new EnumMap<?, ?>[n];
    for (int i = 0; i < n; i++) caches[i] = new EnumMap<>(Wrapper.class);
    return caches;
  }

  /// Converting references to values.

  // There are several levels of this unboxing conversions:
  //   no conversions:  exactly Integer.valueOf, etc.
  //   implicit conversions sanctioned by JLS 5.1.2, etc.
  //   explicit conversions as allowed by explicitCastArguments

  static int unboxInteger(Object x, boolean cast) {
    if (x instanceof Integer) return ((Integer) x).intValue();
    return primitiveConversion(Wrapper.INT, x, cast).intValue();
  }

  static byte unboxByte(Object x, boolean cast) {
    if (x instanceof Byte) return ((Byte) x).byteValue();
    return primitiveConversion(Wrapper.BYTE, x, cast).byteValue();
  }

  static short unboxShort(Object x, boolean cast) {
    if (x instanceof Short) return ((Short) x).shortValue();
    return primitiveConversion(Wrapper.SHORT, x, cast).shortValue();
  }

  static boolean unboxBoolean(Object x, boolean cast) {
    if (x instanceof Boolean) return ((Boolean) x).booleanValue();
    return (primitiveConversion(Wrapper.BOOLEAN, x, cast).intValue() & 1) != 0;
  }

  static char unboxCharacter(Object x, boolean cast) {
    if (x instanceof Character) return ((Character) x).charValue();
    return (char) primitiveConversion(Wrapper.CHAR, x, cast).intValue();
  }

  static long unboxLong(Object x, boolean cast) {
    if (x instanceof Long) return ((Long) x).longValue();
    return primitiveConversion(Wrapper.LONG, x, cast).longValue();
  }

  static float unboxFloat(Object x, boolean cast) {
    if (x instanceof Float) return ((Float) x).floatValue();
    return primitiveConversion(Wrapper.FLOAT, x, cast).floatValue();
  }

  static double unboxDouble(Object x, boolean cast) {
    if (x instanceof Double) return ((Double) x).doubleValue();
    return primitiveConversion(Wrapper.DOUBLE, x, cast).doubleValue();
  }

  private static MethodType unboxType(Wrapper wrap) {
    return MethodType.methodType(wrap.primitiveType(), Object.class, boolean.class);
  }

  private static final EnumMap<Wrapper, MethodHandle>[] UNBOX_CONVERSIONS = newWrapperCaches(2);

  private static MethodHandle unbox(Wrapper wrap, boolean cast) {
    EnumMap<Wrapper, MethodHandle> cache = UNBOX_CONVERSIONS[(cast ? 1 : 0)];
    MethodHandle mh = cache.get(wrap);
    if (mh != null) {
      return mh;
    }
    // slow path
    switch (wrap) {
      case OBJECT:
        mh = IDENTITY;
        break;
      case VOID:
        mh = IGNORE;
        break;
    }
    if (mh != null) {
      cache.put(wrap, mh);
      return mh;
    }
    // look up the method
    String name = "unbox" + wrap.wrapperSimpleName();
    MethodType type = unboxType(wrap);
    try {
      mh = IMPL_LOOKUP.findStatic(THIS_CLASS, name, type);
    } catch (ReflectiveOperationException ex) {
      mh = null;
    }
    if (mh != null) {
      mh = MethodHandles.insertArguments(mh, 1, cast);
      cache.put(wrap, mh);
      return mh;
    }
    throw new IllegalArgumentException(
        "cannot find unbox adapter for " + wrap + (cast ? " (cast)" : ""));
  }

  public static MethodHandle unboxCast(Wrapper type) {
    return unbox(type, true);
  }

  public static MethodHandle unbox(Class<?> type) {
    return unbox(Wrapper.forPrimitiveType(type), false);
  }

  public static MethodHandle unboxCast(Class<?> type) {
    return unbox(Wrapper.forPrimitiveType(type), true);
  }

  private static final Integer ZERO_INT = 0, ONE_INT = 1;

  /// Primitive conversions
  /**
   * Produce a Number which represents the given value {@code x} according to the primitive type of
   * the given wrapper {@code wrap}. Caller must invoke intValue, byteValue, longValue (etc.) on the
   * result to retrieve the desired primitive value.
   */
  public static Number primitiveConversion(Wrapper wrap, Object x, boolean cast) {
    // Maybe merge this code with Wrapper.convert/cast.
    Number res;
    if (x == null) {
      if (!cast) return null;
      return ZERO_INT;
    }
    if (x instanceof Number) {
      res = (Number) x;
    } else if (x instanceof Boolean) {
      res = ((boolean) x ? ONE_INT : ZERO_INT);
    } else if (x instanceof Character) {
      res = (int) (char) x;
    } else {
      // this will fail with the required ClassCastException:
      res = (Number) x;
    }
    Wrapper xwrap = Wrapper.findWrapperType(x.getClass());
    if (xwrap == null || !cast && !wrap.isConvertibleFrom(xwrap))
      // this will fail with the required ClassCastException:
      return (Number) wrap.wrapperType().cast(x);
    return res;
  }

  /**
   * The JVM verifier allows boolean, byte, short, or char to widen to int. Support exactly this
   * conversion, from a boxed value type Boolean, Byte, Short, Character, or Integer.
   */
  public static int widenSubword(Object x) {
    if (x instanceof Integer) return (int) x;
    else if (x instanceof Boolean) return fromBoolean((boolean) x);
    else if (x instanceof Character) return (char) x;
    else if (x instanceof Short) return (short) x;
    else if (x instanceof Byte) return (byte) x;
    else
      // Fail with a ClassCastException.
      return (int) x;
  }

  /// Converting primitives to references

  static Integer boxInteger(int x) {
    return x;
  }

  static Byte boxByte(byte x) {
    return x;
  }

  static Short boxShort(short x) {
    return x;
  }

  static Boolean boxBoolean(boolean x) {
    return x;
  }

  static Character boxCharacter(char x) {
    return x;
  }

  static Long boxLong(long x) {
    return x;
  }

  static Float boxFloat(float x) {
    return x;
  }

  static Double boxDouble(double x) {
    return x;
  }

  private static MethodType boxType(Wrapper wrap) {
    // be exact, since return casts are hard to compose
    Class<?> boxType = wrap.wrapperType();
    return MethodType.methodType(boxType, wrap.primitiveType());
  }

  private static final EnumMap<Wrapper, MethodHandle>[] BOX_CONVERSIONS = newWrapperCaches(2);

  private static MethodHandle box(Wrapper wrap, boolean exact) {
    EnumMap<Wrapper, MethodHandle> cache = BOX_CONVERSIONS[(exact ? 1 : 0)];
    MethodHandle mh = cache.get(wrap);
    if (mh != null) {
      return mh;
    }
    // slow path
    switch (wrap) {
      case OBJECT:
        mh = IDENTITY;
        break;
      case VOID:
        mh = ZERO_OBJECT;
        break;
    }
    if (mh != null) {
      cache.put(wrap, mh);
      return mh;
    }
    // look up the method
    String name = "box" + wrap.wrapperSimpleName();
    MethodType type = boxType(wrap);
    if (exact) {
      try {
        mh = IMPL_LOOKUP.findStatic(THIS_CLASS, name, type);
      } catch (ReflectiveOperationException ex) {
        mh = null;
      }
    } else {
      mh = box(wrap, !exact).asType(type.erase());
    }
    if (mh != null) {
      cache.put(wrap, mh);
      return mh;
    }
    throw new IllegalArgumentException(
        "cannot find box adapter for " + wrap + (exact ? " (exact)" : ""));
  }

  public static MethodHandle box(Class<?> type) {
    boolean exact = false;
    // e.g., boxShort(short)Short if exact,
    // e.g., boxShort(short)Object if !exact
    return box(Wrapper.forPrimitiveType(type), exact);
  }

  public static MethodHandle box(Wrapper type) {
    boolean exact = false;
    return box(type, exact);
  }

  /// Constant functions

  static void ignore(Object x) {
    // no value to return; this is an unbox of null
  }

  static void empty() {}

  static Object zeroObject() {
    return null;
  }

  static int zeroInteger() {
    return 0;
  }

  static long zeroLong() {
    return 0;
  }

  static float zeroFloat() {
    return 0;
  }

  static double zeroDouble() {
    return 0;
  }

  private static final EnumMap<Wrapper, MethodHandle>[] CONSTANT_FUNCTIONS = newWrapperCaches(2);

  public static MethodHandle zeroConstantFunction(Wrapper wrap) {
    EnumMap<Wrapper, MethodHandle> cache = CONSTANT_FUNCTIONS[0];
    MethodHandle mh = cache.get(wrap);
    if (mh != null) {
      return mh;
    }
    // slow path
    MethodType type = MethodType.methodType(wrap.primitiveType());
    switch (wrap) {
      case VOID:
        mh = EMPTY;
        break;
      case OBJECT:
      case INT:
      case LONG:
      case FLOAT:
      case DOUBLE:
        try {
          mh = IMPL_LOOKUP.findStatic(THIS_CLASS, "zero" + wrap.wrapperSimpleName(), type);
        } catch (ReflectiveOperationException ex) {
          mh = null;
        }
        break;
    }
    if (mh != null) {
      cache.put(wrap, mh);
      return mh;
    }

    // use zeroInt and cast the result
    if (wrap.isSubwordOrInt() && wrap != Wrapper.INT) {
      mh = MethodHandles.explicitCastArguments(zeroConstantFunction(Wrapper.INT), type);
      cache.put(wrap, mh);
      return mh;
    }
    throw new IllegalArgumentException("cannot find zero constant for " + wrap);
  }

  /// Converting references to references.

  /**
   * Identity function.
   *
   * @param x an arbitrary reference value
   * @return the same value x
   */
  static <T> T identity(T x) {
    return x;
  }

  static <T> T[] identity(T[] x) {
    return x;
  }

  /**
   * Identity function on ints.
   *
   * @param x an arbitrary int value
   * @return the same value x
   */
  static int identity(int x) {
    return x;
  }

  static byte identity(byte x) {
    return x;
  }

  static short identity(short x) {
    return x;
  }

  static boolean identity(boolean x) {
    return x;
  }

  static char identity(char x) {
    return x;
  }

  /**
   * Identity function on longs.
   *
   * @param x an arbitrary long value
   * @return the same value x
   */
  static long identity(long x) {
    return x;
  }

  static float identity(float x) {
    return x;
  }

  static double identity(double x) {
    return x;
  }

  /**
   * Identity function, with reference cast.
   *
   * @param t an arbitrary reference type
   * @param x an arbitrary reference value
   * @return the same value x
   */
  @SuppressWarnings("unchecked")
  static <T, U> T castReference(Class<? extends T> t, U x) {
    // inlined Class.cast because we can't ForceInline it
    if (x != null && !t.isInstance(x)) throw newClassCastException(t, x);
    return (T) x;
  }

  private static ClassCastException newClassCastException(Class<?> t, Object obj) {
    return new ClassCastException("Cannot cast " + obj.getClass().getName() + " to " + t.getName());
  }

  private static final MethodHandle IDENTITY,
      CAST_REFERENCE,
      ZERO_OBJECT,
      IGNORE,
      EMPTY,
      ARRAY_IDENTITY,
      FILL_NEW_TYPED_ARRAY,
      FILL_NEW_ARRAY;

  static {
    try {
      MethodType idType = MethodType.genericMethodType(1);
      MethodType castType = idType.insertParameterTypes(0, Class.class);
      MethodType ignoreType = idType.changeReturnType(void.class);
      MethodType zeroObjectType = MethodType.genericMethodType(0);
      IDENTITY = IMPL_LOOKUP.findStatic(THIS_CLASS, "identity", idType);
      // CAST_REFERENCE = IMPL_LOOKUP.findVirtual(Class.class, "cast", idType);
      CAST_REFERENCE = IMPL_LOOKUP.findStatic(THIS_CLASS, "castReference", castType);
      ZERO_OBJECT = IMPL_LOOKUP.findStatic(THIS_CLASS, "zeroObject", zeroObjectType);
      IGNORE = IMPL_LOOKUP.findStatic(THIS_CLASS, "ignore", ignoreType);
      EMPTY = IMPL_LOOKUP.findStatic(THIS_CLASS, "empty", ignoreType.dropParameterTypes(0, 1));
      ARRAY_IDENTITY =
          IMPL_LOOKUP.findStatic(
              THIS_CLASS, "identity", MethodType.methodType(Object[].class, Object[].class));
      FILL_NEW_ARRAY =
          IMPL_LOOKUP.findStatic(
              THIS_CLASS,
              "fillNewArray",
              MethodType.methodType(Object[].class, Integer.class, Object[].class));
      FILL_NEW_TYPED_ARRAY =
          IMPL_LOOKUP.findStatic(
              THIS_CLASS,
              "fillNewTypedArray",
              MethodType.methodType(Object[].class, Object[].class, Integer.class, Object[].class));
    } catch (NoSuchMethodException | IllegalAccessException ex) {
      throw newInternalError("uncaught exception", ex);
    }
  }

  // Varargs methods need to be in a separately initialized class, to avoid bootstrapping problems.
  static class LazyStatics {
    private static final MethodHandle COPY_AS_REFERENCE_ARRAY, COPY_AS_PRIMITIVE_ARRAY, MAKE_LIST;

    static {
      try {
        // MAKE_ARRAY = IMPL_LOOKUP.findStatic(THIS_CLASS, "makeArray",
        // MethodType.methodType(Object[].class, Object[].class));
        COPY_AS_REFERENCE_ARRAY =
            IMPL_LOOKUP.findStatic(
                THIS_CLASS,
                "copyAsReferenceArray",
                MethodType.methodType(Object[].class, Class.class, Object[].class));
        COPY_AS_PRIMITIVE_ARRAY =
            IMPL_LOOKUP.findStatic(
                THIS_CLASS,
                "copyAsPrimitiveArray",
                MethodType.methodType(Object.class, Wrapper.class, Object[].class));
        MAKE_LIST =
            IMPL_LOOKUP.findStatic(
                THIS_CLASS, "makeList", MethodType.methodType(List.class, Object[].class));
      } catch (ReflectiveOperationException ex) {
        throw newInternalError("uncaught exception", ex);
      }
    }
  }

  private static final EnumMap<Wrapper, MethodHandle>[] WRAPPER_CASTS = newWrapperCaches(1);

  /**
   * Return a method that casts its sole argument (an Object) to the given type and returns it as
   * the given type.
   */
  public static MethodHandle cast(Class<?> type) {
    if (type.isPrimitive())
      throw new IllegalArgumentException("cannot cast primitive type " + type);
    MethodHandle mh;
    Wrapper wrap = null;
    EnumMap<Wrapper, MethodHandle> cache = null;
    if (Wrapper.isWrapperType(type)) {
      wrap = Wrapper.forWrapperType(type);
      cache = WRAPPER_CASTS[0];
      mh = cache.get(wrap);
      if (mh != null) return mh;
    }
    mh = MethodHandles.insertArguments(CAST_REFERENCE, 0, type);
    if (cache != null) cache.put(wrap, mh);
    return mh;
  }

  public static MethodHandle identity() {
    return IDENTITY;
  }

  public static MethodHandle identity(Class<?> type) {
    if (!type.isPrimitive())
      // Reference identity has been moved into MethodHandles:
      return MethodHandles.identity(type);
    return identity(Wrapper.findPrimitiveType(type));
  }

  public static MethodHandle identity(Wrapper wrap) {
    EnumMap<Wrapper, MethodHandle> cache = CONSTANT_FUNCTIONS[1];
    MethodHandle mh = cache.get(wrap);
    if (mh != null) {
      return mh;
    }
    // slow path
    MethodType type = MethodType.methodType(wrap.primitiveType());
    if (wrap != Wrapper.VOID) type = type.appendParameterTypes(wrap.primitiveType());
    try {
      mh = IMPL_LOOKUP.findStatic(THIS_CLASS, "identity", type);
    } catch (ReflectiveOperationException ex) {
      mh = null;
    }
    if (mh == null && wrap == Wrapper.VOID) {
      mh = EMPTY; // #(){} : #()void
    }
    if (mh != null) {
      cache.put(wrap, mh);
      return mh;
    }

    if (mh != null) {
      cache.put(wrap, mh);
      return mh;
    }
    throw new IllegalArgumentException("cannot find identity for " + wrap);
  }

  /// Primitive conversions.
  // These are supported directly by the JVM, usually by a single instruction.
  // In the case of narrowing to a subword, there may be a pair of instructions.
  // In the case of booleans, there may be a helper routine to manage a 1-bit value.
  // This is the full 8x8 matrix (minus the diagonal).

  // narrow double to all other types:
  static float doubleToFloat(double x) { // bytecode: d2f
    return (float) x;
  }

  static long doubleToLong(double x) { // bytecode: d2l
    return (long) x;
  }

  static int doubleToInt(double x) { // bytecode: d2i
    return (int) x;
  }

  static short doubleToShort(double x) { // bytecodes: d2i, i2s
    return (short) x;
  }

  static char doubleToChar(double x) { // bytecodes: d2i, i2c
    return (char) x;
  }

  static byte doubleToByte(double x) { // bytecodes: d2i, i2b
    return (byte) x;
  }

  static boolean doubleToBoolean(double x) {
    return toBoolean((byte) x);
  }

  // widen float:
  static double floatToDouble(float x) { // bytecode: f2d
    return x;
  }
  // narrow float:
  static long floatToLong(float x) { // bytecode: f2l
    return (long) x;
  }

  static int floatToInt(float x) { // bytecode: f2i
    return (int) x;
  }

  static short floatToShort(float x) { // bytecodes: f2i, i2s
    return (short) x;
  }

  static char floatToChar(float x) { // bytecodes: f2i, i2c
    return (char) x;
  }

  static byte floatToByte(float x) { // bytecodes: f2i, i2b
    return (byte) x;
  }

  static boolean floatToBoolean(float x) {
    return toBoolean((byte) x);
  }

  // widen long:
  static double longToDouble(long x) { // bytecode: l2d
    return x;
  }

  static float longToFloat(long x) { // bytecode: l2f
    return x;
  }
  // narrow long:
  static int longToInt(long x) { // bytecode: l2i
    return (int) x;
  }

  static short longToShort(long x) { // bytecodes: f2i, i2s
    return (short) x;
  }

  static char longToChar(long x) { // bytecodes: f2i, i2c
    return (char) x;
  }

  static byte longToByte(long x) { // bytecodes: f2i, i2b
    return (byte) x;
  }

  static boolean longToBoolean(long x) {
    return toBoolean((byte) x);
  }

  // widen int:
  static double intToDouble(int x) { // bytecode: i2d
    return x;
  }

  static float intToFloat(int x) { // bytecode: i2f
    return x;
  }

  static long intToLong(int x) { // bytecode: i2l
    return x;
  }
  // narrow int:
  static short intToShort(int x) { // bytecode: i2s
    return (short) x;
  }

  static char intToChar(int x) { // bytecode: i2c
    return (char) x;
  }

  static byte intToByte(int x) { // bytecode: i2b
    return (byte) x;
  }

  static boolean intToBoolean(int x) {
    return toBoolean((byte) x);
  }

  // widen short:
  static double shortToDouble(short x) { // bytecode: i2d (implicit 's2i')
    return x;
  }

  static float shortToFloat(short x) { // bytecode: i2f (implicit 's2i')
    return x;
  }

  static long shortToLong(short x) { // bytecode: i2l (implicit 's2i')
    return x;
  }

  static int shortToInt(short x) { // (implicit 's2i')
    return x;
  }
  // narrow short:
  static char shortToChar(short x) { // bytecode: i2c (implicit 's2i')
    return (char) x;
  }

  static byte shortToByte(short x) { // bytecode: i2b (implicit 's2i')
    return (byte) x;
  }

  static boolean shortToBoolean(short x) {
    return toBoolean((byte) x);
  }

  // widen char:
  static double charToDouble(char x) { // bytecode: i2d (implicit 'c2i')
    return x;
  }

  static float charToFloat(char x) { // bytecode: i2f (implicit 'c2i')
    return x;
  }

  static long charToLong(char x) { // bytecode: i2l (implicit 'c2i')
    return x;
  }

  static int charToInt(char x) { // (implicit 'c2i')
    return x;
  }
  // narrow char:
  static short charToShort(char x) { // bytecode: i2s (implicit 'c2i')
    return (short) x;
  }

  static byte charToByte(char x) { // bytecode: i2b (implicit 'c2i')
    return (byte) x;
  }

  static boolean charToBoolean(char x) {
    return toBoolean((byte) x);
  }

  // widen byte:
  static double byteToDouble(byte x) { // bytecode: i2d (implicit 'b2i')
    return x;
  }

  static float byteToFloat(byte x) { // bytecode: i2f (implicit 'b2i')
    return x;
  }

  static long byteToLong(byte x) { // bytecode: i2l (implicit 'b2i')
    return x;
  }

  static int byteToInt(byte x) { // (implicit 'b2i')
    return x;
  }

  static short byteToShort(byte x) { // bytecode: i2s (implicit 'b2i')
    return (short) x;
  }

  static char byteToChar(byte x) { // bytecode: i2b (implicit 'b2i')
    return (char) x;
  }
  // narrow byte to boolean:
  static boolean byteToBoolean(byte x) {
    return toBoolean(x);
  }

  // widen boolean to all types:
  static double booleanToDouble(boolean x) {
    return fromBoolean(x);
  }

  static float booleanToFloat(boolean x) {
    return fromBoolean(x);
  }

  static long booleanToLong(boolean x) {
    return fromBoolean(x);
  }

  static int booleanToInt(boolean x) {
    return fromBoolean(x);
  }

  static short booleanToShort(boolean x) {
    return fromBoolean(x);
  }

  static char booleanToChar(boolean x) {
    return (char) fromBoolean(x);
  }

  static byte booleanToByte(boolean x) {
    return fromBoolean(x);
  }

  // helpers to force boolean into the conversion scheme:
  static boolean toBoolean(byte x) {
    // see javadoc for MethodHandles.explicitCastArguments
    return ((x & 1) != 0);
  }

  static byte fromBoolean(boolean x) {
    // see javadoc for MethodHandles.explicitCastArguments
    return (x ? (byte) 1 : (byte) 0);
  }

  private static final EnumMap<Wrapper, MethodHandle>[] CONVERT_PRIMITIVE_FUNCTIONS =
      newWrapperCaches(Wrapper.values().length);

  public static MethodHandle convertPrimitive(Wrapper wsrc, Wrapper wdst) {
    EnumMap<Wrapper, MethodHandle> cache = CONVERT_PRIMITIVE_FUNCTIONS[wsrc.ordinal()];
    MethodHandle mh = cache.get(wdst);
    if (mh != null) {
      return mh;
    }
    // slow path
    Class<?> src = wsrc.primitiveType();
    Class<?> dst = wdst.primitiveType();
    MethodType type =
        src == void.class ? MethodType.methodType(dst) : MethodType.methodType(dst, src);
    if (wsrc == wdst) {
      mh = identity(src);
    } else if (wsrc == Wrapper.VOID) {
      mh = zeroConstantFunction(wdst);
    } else if (wdst == Wrapper.VOID) {
      mh = MethodHandles.dropArguments(EMPTY, 0, src); // Defer back to MethodHandles.
    } else if (wsrc == Wrapper.OBJECT) {
      mh = unboxCast(dst);
    } else if (wdst == Wrapper.OBJECT) {
      mh = box(src);
    } else {
      assert (src.isPrimitive() && dst.isPrimitive());
      try {
        mh =
            IMPL_LOOKUP.findStatic(
                THIS_CLASS, src.getSimpleName() + "To" + capitalize(dst.getSimpleName()), type);
      } catch (ReflectiveOperationException ex) {
        mh = null;
      }
    }
    if (mh != null) {
      assert (mh.type() == type) : mh;
      cache.put(wdst, mh);
      return mh;
    }

    throw new IllegalArgumentException(
        "cannot find primitive conversion function for "
            + src.getSimpleName()
            + " -> "
            + dst.getSimpleName());
  }

  public static MethodHandle convertPrimitive(Class<?> src, Class<?> dst) {
    return convertPrimitive(Wrapper.forPrimitiveType(src), Wrapper.forPrimitiveType(dst));
  }

  private static String capitalize(String x) {
    return Character.toUpperCase(x.charAt(0)) + x.substring(1);
  }

  /// Collection of multiple arguments.

  public static Object convertArrayElements(Class<?> arrayType, Object array) {
    Class<?> src = array.getClass().getComponentType();
    Class<?> dst = arrayType.getComponentType();
    if (src == null || dst == null) throw new IllegalArgumentException("not array type");
    Wrapper sw = (src.isPrimitive() ? Wrapper.forPrimitiveType(src) : null);
    Wrapper dw = (dst.isPrimitive() ? Wrapper.forPrimitiveType(dst) : null);
    int length;
    if (sw == null) {
      Object[] a = (Object[]) array;
      length = a.length;
      if (dw == null) return Arrays.copyOf(a, length, arrayType.asSubclass(Object[].class));
      Object res = dw.makeArray(length);
      dw.copyArrayUnboxing(a, 0, res, 0, length);
      return res;
    }
    length = j86.java.lang.reflect.Array.getLength(array);
    Object[] res;
    if (dw == null) {
      res = Arrays.copyOf(NO_ARGS_ARRAY, length, arrayType.asSubclass(Object[].class));
    } else {
      res = new Object[length];
    }
    sw.copyArrayBoxing(array, 0, res, 0, length);
    if (dw == null) return res;
    Object a = dw.makeArray(length);
    dw.copyArrayUnboxing(res, 0, a, 0, length);
    return a;
  }

  private static MethodHandle findCollector(
      String name, int nargs, Class<?> rtype, Class<?>... ptypes) {
    MethodType type =
        MethodType.genericMethodType(nargs).changeReturnType(rtype).insertParameterTypes(0, ptypes);
    try {
      return IMPL_LOOKUP.findStatic(THIS_CLASS, name, type);
    } catch (ReflectiveOperationException ex) {
      return null;
    }
  }

  private static final Object[] NO_ARGS_ARRAY = {};

  private static Object[] makeArray(Object... args) {
    return args;
  }

  private static Object[] array() {
    return NO_ARGS_ARRAY;
  }

  private static Object[] array(Object a0) {
    return makeArray(a0);
  }

  private static Object[] array(Object a0, Object a1) {
    return makeArray(a0, a1);
  }

  private static Object[] array(Object a0, Object a1, Object a2) {
    return makeArray(a0, a1, a2);
  }

  private static Object[] array(Object a0, Object a1, Object a2, Object a3) {
    return makeArray(a0, a1, a2, a3);
  }

  private static Object[] array(Object a0, Object a1, Object a2, Object a3, Object a4) {
    return makeArray(a0, a1, a2, a3, a4);
  }

  private static Object[] array(Object a0, Object a1, Object a2, Object a3, Object a4, Object a5) {
    return makeArray(a0, a1, a2, a3, a4, a5);
  }

  private static Object[] array(
      Object a0, Object a1, Object a2, Object a3, Object a4, Object a5, Object a6) {
    return makeArray(a0, a1, a2, a3, a4, a5, a6);
  }

  private static Object[] array(
      Object a0, Object a1, Object a2, Object a3, Object a4, Object a5, Object a6, Object a7) {
    return makeArray(a0, a1, a2, a3, a4, a5, a6, a7);
  }

  private static Object[] array(
      Object a0,
      Object a1,
      Object a2,
      Object a3,
      Object a4,
      Object a5,
      Object a6,
      Object a7,
      Object a8) {
    return makeArray(a0, a1, a2, a3, a4, a5, a6, a7, a8);
  }

  private static Object[] array(
      Object a0,
      Object a1,
      Object a2,
      Object a3,
      Object a4,
      Object a5,
      Object a6,
      Object a7,
      Object a8,
      Object a9) {
    return makeArray(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9);
  }

  private static MethodHandle[] makeArrays() {
    ArrayList<MethodHandle> mhs = new ArrayList<>();
    for (; ; ) {
      MethodHandle mh = findCollector("array", mhs.size(), Object[].class);
      if (mh == null) break;
      mhs.add(mh);
    }
    assert (mhs.size() == 11); // current number of methods
    return mhs.toArray(new MethodHandle[MAX_ARITY + 1]);
  }

  private static final MethodHandle[] ARRAYS = makeArrays();

  // filling versions of the above:
  // using Integer len instead of int len and no varargs to avoid bootstrapping problems
  private static Object[] fillNewArray(Integer len, Object[] /*not ...*/ args) {
    Object[] a = new Object[len];
    fillWithArguments(a, 0, args);
    return a;
  }

  private static Object[] fillNewTypedArray(
      Object[] example, Integer len, Object[] /*not ...*/ args) {
    Object[] a = Arrays.copyOf(example, len);
    fillWithArguments(a, 0, args);
    return a;
  }

  private static void fillWithArguments(Object[] a, int pos, Object... args) {
    System.arraycopy(args, 0, a, pos, args.length);
  }
  // using Integer pos instead of int pos to avoid bootstrapping problems
  private static Object[] fillArray(Integer pos, Object[] a, Object a0) {
    fillWithArguments(a, pos, a0);
    return a;
  }

  private static Object[] fillArray(Integer pos, Object[] a, Object a0, Object a1) {
    fillWithArguments(a, pos, a0, a1);
    return a;
  }

  private static Object[] fillArray(Integer pos, Object[] a, Object a0, Object a1, Object a2) {
    fillWithArguments(a, pos, a0, a1, a2);
    return a;
  }

  private static Object[] fillArray(
      Integer pos, Object[] a, Object a0, Object a1, Object a2, Object a3) {
    fillWithArguments(a, pos, a0, a1, a2, a3);
    return a;
  }

  private static Object[] fillArray(
      Integer pos, Object[] a, Object a0, Object a1, Object a2, Object a3, Object a4) {
    fillWithArguments(a, pos, a0, a1, a2, a3, a4);
    return a;
  }

  private static Object[] fillArray(
      Integer pos, Object[] a, Object a0, Object a1, Object a2, Object a3, Object a4, Object a5) {
    fillWithArguments(a, pos, a0, a1, a2, a3, a4, a5);
    return a;
  }

  private static Object[] fillArray(
      Integer pos,
      Object[] a,
      Object a0,
      Object a1,
      Object a2,
      Object a3,
      Object a4,
      Object a5,
      Object a6) {
    fillWithArguments(a, pos, a0, a1, a2, a3, a4, a5, a6);
    return a;
  }

  private static Object[] fillArray(
      Integer pos,
      Object[] a,
      Object a0,
      Object a1,
      Object a2,
      Object a3,
      Object a4,
      Object a5,
      Object a6,
      Object a7) {
    fillWithArguments(a, pos, a0, a1, a2, a3, a4, a5, a6, a7);
    return a;
  }

  private static Object[] fillArray(
      Integer pos,
      Object[] a,
      Object a0,
      Object a1,
      Object a2,
      Object a3,
      Object a4,
      Object a5,
      Object a6,
      Object a7,
      Object a8) {
    fillWithArguments(a, pos, a0, a1, a2, a3, a4, a5, a6, a7, a8);
    return a;
  }

  private static Object[] fillArray(
      Integer pos,
      Object[] a,
      Object a0,
      Object a1,
      Object a2,
      Object a3,
      Object a4,
      Object a5,
      Object a6,
      Object a7,
      Object a8,
      Object a9) {
    fillWithArguments(a, pos, a0, a1, a2, a3, a4, a5, a6, a7, a8, a9);
    return a;
  }

  private static MethodHandle[] makeFillArrays() {
    ArrayList<MethodHandle> mhs = new ArrayList<>();
    mhs.add(null); // there is no empty fill; at least a0 is required
    for (; ; ) {
      MethodHandle mh =
          findCollector("fillArray", mhs.size(), Object[].class, Integer.class, Object[].class);
      if (mh == null) break;
      mhs.add(mh);
    }
    assert (mhs.size() == 11); // current number of methods
    return mhs.toArray(new MethodHandle[0]);
  }

  private static final MethodHandle[] FILL_ARRAYS = makeFillArrays();

  private static Object[] copyAsReferenceArray(Class<? extends Object[]> arrayType, Object... a) {
    return Arrays.copyOf(a, a.length, arrayType);
  }

  private static Object copyAsPrimitiveArray(Wrapper w, Object... boxes) {
    Object a = w.makeArray(boxes.length);
    w.copyArrayUnboxing(boxes, 0, a, 0, boxes.length);
    return a;
  }

  /**
   * Return a method handle that takes the indicated number of Object arguments and returns an
   * Object array of them, as if for varargs.
   */
  public static MethodHandle varargsArray(int nargs) {
    MethodHandle mh = ARRAYS[nargs];
    if (mh != null) return mh;
    mh = findCollector("array", nargs, Object[].class);
    if (mh != null) return ARRAYS[nargs] = mh;
    mh = buildVarargsArray(FILL_NEW_ARRAY, ARRAY_IDENTITY, nargs);
    assert (assertCorrectArity(mh, nargs));
    return ARRAYS[nargs] = mh;
  }

  private static boolean assertCorrectArity(MethodHandle mh, int arity) {
    assert (mh.type().parameterCount() == arity) : "arity != " + arity + ": " + mh;
    return true;
  }

  private static MethodHandle buildVarargsArray(
      MethodHandle newArray, MethodHandle finisher, int nargs) {
    // Build up the result mh as a sequence of fills like this:
    //   finisher(fill(fill(newArrayWA(23,x1..x10),10,x11..x20),20,x21..x23))
    // The various fill(_,10*I,___*[J]) are reusable.
    int leftLen = Math.min(nargs, LEFT_ARGS); // absorb some arguments immediately
    int rightLen = nargs - leftLen;
    MethodHandle leftCollector = newArray.bindTo(nargs);
    leftCollector = leftCollector.asCollector(Object[].class, leftLen);
    MethodHandle mh = finisher;
    if (rightLen > 0) {
      MethodHandle rightFiller = fillToRight(LEFT_ARGS + rightLen);
      if (mh == ARRAY_IDENTITY) mh = rightFiller;
      else mh = MethodHandles.collectArguments(mh, 0, rightFiller);
    }
    if (mh == ARRAY_IDENTITY) mh = leftCollector;
    else mh = MethodHandles.collectArguments(mh, 0, leftCollector);
    return mh;
  }

  private static final int LEFT_ARGS = (FILL_ARRAYS.length - 1);
  private static final MethodHandle[] FILL_ARRAY_TO_RIGHT = new MethodHandle[MAX_ARITY + 1];
  /**
   * fill_array_to_right(N).invoke(a, argL..arg[N-1]) fills a[L]..a[N-1] with corresponding
   * arguments, and then returns a. The value L is a global constant (LEFT_ARGS).
   */
  private static MethodHandle fillToRight(int nargs) {
    MethodHandle filler = FILL_ARRAY_TO_RIGHT[nargs];
    if (filler != null) return filler;
    filler = buildFiller(nargs);
    assert (assertCorrectArity(filler, nargs - LEFT_ARGS + 1));
    return FILL_ARRAY_TO_RIGHT[nargs] = filler;
  }

  private static MethodHandle buildFiller(int nargs) {
    if (nargs <= LEFT_ARGS) return ARRAY_IDENTITY; // no args to fill; return the array unchanged
    // we need room for both mh and a in mh.invoke(a, arg*[nargs])
    final int CHUNK = LEFT_ARGS;
    int rightLen = nargs % CHUNK;
    int midLen = nargs - rightLen;
    if (rightLen == 0) {
      midLen = nargs - (rightLen = CHUNK);
      if (FILL_ARRAY_TO_RIGHT[midLen] == null) {
        // build some precursors from left to right
        for (int j = LEFT_ARGS % CHUNK; j < midLen; j += CHUNK) if (j > LEFT_ARGS) fillToRight(j);
      }
    }
    if (midLen < LEFT_ARGS) rightLen = nargs - (midLen = LEFT_ARGS);
    assert (rightLen > 0);
    MethodHandle midFill = fillToRight(midLen); // recursive fill
    MethodHandle rightFill = FILL_ARRAYS[rightLen].bindTo(midLen); // [midLen..nargs-1]
    assert (midFill.type().parameterCount() == 1 + midLen - LEFT_ARGS);
    assert (rightFill.type().parameterCount() == 1 + rightLen);

    // Combine the two fills:
    //   right(mid(a, x10..x19), x20..x23)
    // The final product will look like this:
    //   right(mid(newArrayLeft(24, x0..x9), x10..x19), x20..x23)
    if (midLen == LEFT_ARGS) return rightFill;
    else return MethodHandles.collectArguments(rightFill, 0, midFill);
  }

  // Type-polymorphic version of varargs maker.
  private static final ClassValue<MethodHandle[]> TYPED_COLLECTORS =
      new ClassValue<MethodHandle[]>() {
        @Override
        protected MethodHandle[] computeValue(Class<?> type) {
          return new MethodHandle[256];
        }
      };

  static final int MAX_JVM_ARITY = 255; // limit imposed by the JVM

  /**
   * Return a method handle that takes the indicated number of typed arguments and returns an array
   * of them. The type argument is the array type.
   */
  public static MethodHandle varargsArray(Class<?> arrayType, int nargs) {
    Class<?> elemType = arrayType.getComponentType();
    if (elemType == null) throw new IllegalArgumentException("not an array: " + arrayType);
    // FIXME: Need more special casing and caching here.
    if (nargs >= MAX_JVM_ARITY / 2 - 1) {
      int slots = nargs;
      final int MAX_ARRAY_SLOTS = MAX_JVM_ARITY - 1; // 1 for receiver MH
      if (arrayType == double[].class || arrayType == long[].class) slots *= 2;
      if (slots > MAX_ARRAY_SLOTS)
        throw new IllegalArgumentException(
            "too many arguments: " + arrayType.getSimpleName() + ", length " + nargs);
    }
    if (elemType == Object.class) return varargsArray(nargs);
    // other cases:  primitive arrays, subtypes of Object[]
    MethodHandle cache[] = TYPED_COLLECTORS.get(elemType);
    MethodHandle mh = nargs < cache.length ? cache[nargs] : null;
    if (mh != null) return mh;
    if (elemType.isPrimitive()) {
      MethodHandle builder = FILL_NEW_ARRAY;
      MethodHandle producer = buildArrayProducer(arrayType);
      mh = buildVarargsArray(builder, producer, nargs);
    } else {
      @SuppressWarnings("unchecked")
      Class<? extends Object[]> objArrayType = (Class<? extends Object[]>) arrayType;
      Object[] example = Arrays.copyOf(NO_ARGS_ARRAY, 0, objArrayType);
      MethodHandle builder = FILL_NEW_TYPED_ARRAY.bindTo(example);
      MethodHandle producer = ARRAY_IDENTITY;
      mh = buildVarargsArray(builder, producer, nargs);
    }
    mh =
        mh.asType(MethodType.methodType(arrayType, Collections.<Class<?>>nCopies(nargs, elemType)));
    assert (assertCorrectArity(mh, nargs));
    if (nargs < cache.length) cache[nargs] = mh;
    return mh;
  }

  private static MethodHandle buildArrayProducer(Class<?> arrayType) {
    Class<?> elemType = arrayType.getComponentType();
    if (elemType.isPrimitive())
      return LazyStatics.COPY_AS_PRIMITIVE_ARRAY.bindTo(Wrapper.forPrimitiveType(elemType));
    else return LazyStatics.COPY_AS_REFERENCE_ARRAY.bindTo(arrayType);
  }

  // List version of varargs maker.

  private static final List<Object> NO_ARGS_LIST = Arrays.asList(NO_ARGS_ARRAY);

  private static List<Object> makeList(Object... args) {
    return Arrays.asList(args);
  }

  private static List<Object> list() {
    return NO_ARGS_LIST;
  }

  private static List<Object> list(Object a0) {
    return makeList(a0);
  }

  private static List<Object> list(Object a0, Object a1) {
    return makeList(a0, a1);
  }

  private static List<Object> list(Object a0, Object a1, Object a2) {
    return makeList(a0, a1, a2);
  }

  private static List<Object> list(Object a0, Object a1, Object a2, Object a3) {
    return makeList(a0, a1, a2, a3);
  }

  private static List<Object> list(Object a0, Object a1, Object a2, Object a3, Object a4) {
    return makeList(a0, a1, a2, a3, a4);
  }

  private static List<Object> list(
      Object a0, Object a1, Object a2, Object a3, Object a4, Object a5) {
    return makeList(a0, a1, a2, a3, a4, a5);
  }

  private static List<Object> list(
      Object a0, Object a1, Object a2, Object a3, Object a4, Object a5, Object a6) {
    return makeList(a0, a1, a2, a3, a4, a5, a6);
  }

  private static List<Object> list(
      Object a0, Object a1, Object a2, Object a3, Object a4, Object a5, Object a6, Object a7) {
    return makeList(a0, a1, a2, a3, a4, a5, a6, a7);
  }

  private static List<Object> list(
      Object a0,
      Object a1,
      Object a2,
      Object a3,
      Object a4,
      Object a5,
      Object a6,
      Object a7,
      Object a8) {
    return makeList(a0, a1, a2, a3, a4, a5, a6, a7, a8);
  }

  private static List<Object> list(
      Object a0,
      Object a1,
      Object a2,
      Object a3,
      Object a4,
      Object a5,
      Object a6,
      Object a7,
      Object a8,
      Object a9) {
    return makeList(a0, a1, a2, a3, a4, a5, a6, a7, a8, a9);
  }

  private static MethodHandle[] makeLists() {
    ArrayList<MethodHandle> mhs = new ArrayList<>();
    for (; ; ) {
      MethodHandle mh = findCollector("list", mhs.size(), List.class);
      if (mh == null) break;
      mhs.add(mh);
    }
    assert (mhs.size() == 11); // current number of methods
    return mhs.toArray(new MethodHandle[MAX_ARITY + 1]);
  }

  private static final MethodHandle[] LISTS = makeLists();

  /**
   * Return a method handle that takes the indicated number of Object arguments and returns a List.
   */
  public static MethodHandle varargsList(int nargs) {
    MethodHandle mh = LISTS[nargs];
    if (mh != null) return mh;
    mh = findCollector("list", nargs, List.class);
    if (mh != null) return LISTS[nargs] = mh;
    return LISTS[nargs] = buildVarargsList(nargs);
  }

  private static MethodHandle buildVarargsList(int nargs) {
    return MethodHandles.filterReturnValue(varargsArray(nargs), LazyStatics.MAKE_LIST);
  }

  // handy shared exception makers (they simplify the common case code)
  private static InternalError newInternalError(String message, Throwable cause) {
    return new InternalError(message, cause);
  }

  private static InternalError newInternalError(Throwable cause) {
    return new InternalError(cause);
  }
}
예제 #9
0
 private static MethodHandle buildVarargsList(int nargs) {
   return MethodHandles.filterReturnValue(varargsArray(nargs), LazyStatics.MAKE_LIST);
 }