JDK8/Java8源码在线阅读

/*
 * Copyright (c) 2008, 2012, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */

package sun.invoke.util;

public enum Wrapper {
    //        wrapperType    primitiveType  char            zero         emptyArray          format
    BOOLEAN(  Boolean.class, boolean.class, 'Z',      (Boolean)false, new boolean[0], Format.unsigned( 1)),
    // These must be in the order defined for widening primitive conversions in JLS 5.1.2
    BYTE   (     Byte.class,    byte.class, 'B',       (Byte)(byte)0, new    byte[0], Format.signed(   8)),
    SHORT  (    Short.class,   short.class, 'S',     (Short)(short)0, new   short[0], Format.signed(  16)),
    CHAR   (Character.class,    char.class, 'C',  (Character)(char)0, new    char[0], Format.unsigned(16)),
    INT    (  Integer.class,     int.class, 'I', (Integer)/*(int)*/0, new     int[0], Format.signed(  32)),
    LONG   (     Long.class,    long.class, 'J',       (Long)(long)0, new    long[0], Format.signed(  64)),
    FLOAT  (    Float.class,   float.class, 'F',     (Float)(float)0, new   float[0], Format.floating(32)),
    DOUBLE (   Double.class,  double.class, 'D',   (Double)(double)0, new  double[0], Format.floating(64)),
    OBJECT (   Object.class,  Object.class, 'L',                null, new  Object[0], Format.other(    1)),
    // VOID must be the last type, since it is "assignable" from any other type:
    VOID   (     Void.class,    void.class, 'V',                null,           null, Format.other(    0)),
    ;

    private final Class<?> wrapperType;
    private final Class<?> primitiveType;
    private final char     basicTypeChar;
    private final Object   zero;
    private final Object   emptyArray;
    private final int      format;
    private final String   wrapperSimpleName;
    private final String   primitiveSimpleName;

    private Wrapper(Class<?> wtype, Class<?> ptype, char tchar, Object zero, Object emptyArray, int format) {
        this.wrapperType = wtype;
        this.primitiveType = ptype;
        this.basicTypeChar = tchar;
        this.zero = zero;
        this.emptyArray = emptyArray;
        this.format = format;
        this.wrapperSimpleName = wtype.getSimpleName();
        this.primitiveSimpleName = ptype.getSimpleName();
    }

    /** For debugging, give the details of this wrapper. */
    public String detailString() {
        return wrapperSimpleName+
                java.util.Arrays.asList(wrapperType, primitiveType,
                basicTypeChar, zero,
                "0x"+Integer.toHexString(format));
    }

    private static abstract class Format {
        static final int SLOT_SHIFT = 0, SIZE_SHIFT = 2, KIND_SHIFT = 12;
        static final int
                SIGNED   = (-1) << KIND_SHIFT,
                UNSIGNED = 0    << KIND_SHIFT,
                FLOATING = 1    << KIND_SHIFT;
        static final int
                SLOT_MASK = ((1<<(SIZE_SHIFT-SLOT_SHIFT))-1),
                SIZE_MASK = ((1<<(KIND_SHIFT-SIZE_SHIFT))-1);
        static int format(int kind, int size, int slots) {
            assert(((kind >> KIND_SHIFT) << KIND_SHIFT) == kind);
            assert((size & (size-1)) == 0); // power of two
            assert((kind == SIGNED)   ? (size > 0) :
                   (kind == UNSIGNED) ? (size > 0) :
                   (kind == FLOATING) ? (size == 32 || size == 64)  :
                   false);
            assert((slots == 2) ? (size == 64) :
                   (slots == 1) ? (size <= 32) :
                   false);
            return kind | (size << SIZE_SHIFT) | (slots << SLOT_SHIFT);
        }
        static final int
                INT      = SIGNED   | (32 << SIZE_SHIFT) | (1 << SLOT_SHIFT),
                SHORT    = SIGNED   | (16 << SIZE_SHIFT) | (1 << SLOT_SHIFT),
                BOOLEAN  = UNSIGNED | (1  << SIZE_SHIFT) | (1 << SLOT_SHIFT),
                CHAR     = UNSIGNED | (16 << SIZE_SHIFT) | (1 << SLOT_SHIFT),
                FLOAT    = FLOATING | (32 << SIZE_SHIFT) | (1 << SLOT_SHIFT),
                VOID     = UNSIGNED | (0  << SIZE_SHIFT) | (0 << SLOT_SHIFT),
                NUM_MASK = (-1) << SIZE_SHIFT;
        static int signed(int size)   { return format(SIGNED,   size, (size > 32 ? 2 : 1)); }
        static int unsigned(int size) { return format(UNSIGNED, size, (size > 32 ? 2 : 1)); }
        static int floating(int size) { return format(FLOATING, size, (size > 32 ? 2 : 1)); }
        static int other(int slots)   { return slots << SLOT_SHIFT; }
    }

    /// format queries:

    /** How many bits are in the wrapped value?  Returns 0 for OBJECT or VOID. */
    public int     bitWidth()      { return (format >> Format.SIZE_SHIFT) & Format.SIZE_MASK; }
    /** How many JVM stack slots occupied by the wrapped value?  Returns 0 for VOID. */
    public int     stackSlots()    { return (format >> Format.SLOT_SHIFT) & Format.SLOT_MASK; }
    /** Does the wrapped value occupy a single JVM stack slot? */
    public boolean isSingleWord()  { return (format & (1 << Format.SLOT_SHIFT)) != 0; }
    /** Does the wrapped value occupy two JVM stack slots? */
    public boolean isDoubleWord()  { return (format & (2 << Format.SLOT_SHIFT)) != 0; }
    /** Is the wrapped type numeric (not void or object)? */
    public boolean isNumeric()     { return (format & Format.NUM_MASK) != 0; }
    /** Is the wrapped type a primitive other than float, double, or void? */
    public boolean isIntegral()    { return isNumeric() && format < Format.FLOAT; }
    /** Is the wrapped type one of int, boolean, byte, char, or short? */
    public boolean isSubwordOrInt() { return isIntegral() && isSingleWord(); }
    /* Is the wrapped value a signed integral type (one of byte, short, int, or long)? */
    public boolean isSigned()      { return format < Format.VOID; }
    /* Is the wrapped value an unsigned integral type (one of boolean or char)? */
    public boolean isUnsigned()    { return format >= Format.BOOLEAN && format < Format.FLOAT; }
    /** Is the wrapped type either float or double? */
    public boolean isFloating()    { return format >= Format.FLOAT; }
    /** Is the wrapped type either void or a reference? */
    public boolean isOther()       { return (format & ~Format.SLOT_MASK) == 0; }

    /** Does the JLS 5.1.2 allow a variable of this wrapper's
     *  primitive type to be assigned from a value of the given wrapper's primitive type?
     *  Cases:
     *  <ul>
     *  <li>unboxing followed by widening primitive conversion
     *  <li>any type converted to {@code void} (i.e., dropping a method call's value)
     *  <li>boxing conversion followed by widening reference conversion to {@code Object}
     *  </ul>
     *  These are the cases allowed by MethodHandle.asType.
     */
    public boolean isConvertibleFrom(Wrapper source) {
        if (this == source)  return true;
        if (this.compareTo(source) < 0) {
            // At best, this is a narrowing conversion.
            return false;
        }
        // All conversions are allowed in the enum order between floats and signed ints.
        // First detect non-signed non-float types (boolean, char, Object, void).
        boolean floatOrSigned = (((this.format & source.format) & Format.SIGNED) != 0);
        if (!floatOrSigned) {
            if (this.isOther())  return true;
            // can convert char to int or wider, but nothing else
            if (source.format == Format.CHAR)  return true;
            // no other conversions are classified as widening
            return false;
        }
        // All signed and float conversions in the enum order are widening.
        assert(this.isFloating() || this.isSigned());
        assert(source.isFloating() || source.isSigned());
        return true;
    }

    static { assert(checkConvertibleFrom()); }
    private static boolean checkConvertibleFrom() {
        // Check the matrix for correct classification of widening conversions.
        for (Wrapper w : values()) {
            assert(w.isConvertibleFrom(w));
            assert(VOID.isConvertibleFrom(w));
            if (w != VOID) {
                assert(OBJECT.isConvertibleFrom(w));
                assert(!w.isConvertibleFrom(VOID));
            }
            // check relations with unsigned integral types:
            if (w != CHAR) {
                assert(!CHAR.isConvertibleFrom(w));
                if (!w.isConvertibleFrom(INT))
                    assert(!w.isConvertibleFrom(CHAR));
            }
            if (w != BOOLEAN) {
                assert(!BOOLEAN.isConvertibleFrom(w));
                if (w != VOID && w != OBJECT)
                    assert(!w.isConvertibleFrom(BOOLEAN));
            }
            // check relations with signed integral types:
            if (w.isSigned()) {
                for (Wrapper x : values()) {
                    if (w == x)  continue;
                    if (x.isFloating())
                        assert(!w.isConvertibleFrom(x));
                    else if (x.isSigned()) {
                        if (w.compareTo(x) < 0)
                            assert(!w.isConvertibleFrom(x));
                        else
                            assert(w.isConvertibleFrom(x));
                    }
                }
            }
            // check relations with floating types:
            if (w.isFloating()) {
                for (Wrapper x : values()) {
                    if (w == x)  continue;
                    if (x.isSigned())
                        assert(w.isConvertibleFrom(x));
                    else if (x.isFloating()) {
                        if (w.compareTo(x) < 0)
                            assert(!w.isConvertibleFrom(x));
                        else
                            assert(w.isConvertibleFrom(x));
                    }
                }
            }
        }
        return true;  // i.e., assert(true)
    }

    /** Produce a zero value for the given wrapper type.
     *  This will be a numeric zero for a number or character,
     *  false for a boolean, and null for a reference or void.
     *  The common thread is that this is what is contained
     *  in a default-initialized variable of the given primitive
     *  type.  (For void, it is what a reflective method returns
     *  instead of no value at all.)
     */
    public Object zero() { return zero; }

    /** Produce a zero value for the given wrapper type T.
     *  The optional argument must a type compatible with this wrapper.
     *  Equivalent to {@code this.cast(this.zero(), type)}.
     */
    public <T> T zero(Class<T> type) { return convert(zero, type); }

    /** Return the wrapper that wraps values of the given type.
     *  The type may be {@code Object}, meaning the {@code OBJECT} wrapper.
     *  Otherwise, the type must be a primitive.
     *  @throws IllegalArgumentException for unexpected types
     */
    public static Wrapper forPrimitiveType(Class<?> type) {
        Wrapper w = findPrimitiveType(type);
        if (w != null)  return w;
        if (type.isPrimitive())
            throw new InternalError(); // redo hash function
        throw newIllegalArgumentException("not primitive: "+type);
    }

    static Wrapper findPrimitiveType(Class<?> type) {
        Wrapper w = FROM_PRIM[hashPrim(type)];
        if (w != null && w.primitiveType == type) {
            return w;
        }
        return null;
    }

    /** Return the wrapper that wraps values into the given wrapper type.
     *  If it is {@code Object}, return {@code OBJECT}.
     *  Otherwise, it must be a wrapper type.
     *  The type must not be a primitive type.
     *  @throws IllegalArgumentException for unexpected types
     */
    public static Wrapper forWrapperType(Class<?> type) {
        Wrapper w = findWrapperType(type);
        if (w != null)  return w;
        for (Wrapper x : values())
            if (x.wrapperType == type)
                throw new InternalError(); // redo hash function
        throw newIllegalArgumentException("not wrapper: "+type);
    }

    static Wrapper findWrapperType(Class<?> type) {
        Wrapper w = FROM_WRAP[hashWrap(type)];
        if (w != null && w.wrapperType == type) {
            return w;
        }
        return null;
    }

    /** Return the wrapper that corresponds to the given bytecode
     *  signature character.  Return {@code OBJECT} for the character 'L'.
     *  @throws IllegalArgumentException for any non-signature character or {@code '['}.
     */
    public static Wrapper forBasicType(char type) {
        Wrapper w = FROM_CHAR[hashChar(type)];
        if (w != null && w.basicTypeChar == type) {
            return w;
        }
        for (Wrapper x : values())
            if (w.basicTypeChar == type)
                throw new InternalError(); // redo hash function
        throw newIllegalArgumentException("not basic type char: "+type);
    }

    /** Return the wrapper for the given type, if it is
     *  a primitive type, else return {@code OBJECT}.
     */
    public static Wrapper forBasicType(Class<?> type) {
        if (type.isPrimitive())
            return forPrimitiveType(type);
        return OBJECT;  // any reference, including wrappers or arrays
    }

    // Note on perfect hashes:
    //   for signature chars c, do (c + (c >> 1)) % 16
    //   for primitive type names n, do (n[0] + n[2]) % 16
    // The type name hash works for both primitive and wrapper names.
    // You can add "java/lang/Object" to the primitive names.
    // But you add the wrapper name Object, use (n[2] + (3*n[1])) % 16.
    private static final Wrapper[] FROM_PRIM = new Wrapper[16];
    private static final Wrapper[] FROM_WRAP = new Wrapper[16];
    private static final Wrapper[] FROM_CHAR = new Wrapper[16];
    private static int hashPrim(Class<?> x) {
        String xn = x.getName();
        if (xn.length() < 3)  return 0;
        return (xn.charAt(0) + xn.charAt(2)) % 16;
    }
    private static int hashWrap(Class<?> x) {
        String xn = x.getName();
        final int offset = 10; assert(offset == "java.lang.".length());
        if (xn.length() < offset+3)  return 0;
        return (3*xn.charAt(offset+1) + xn.charAt(offset+2)) % 16;
    }
    private static int hashChar(char x) {
        return (x + (x >> 1)) % 16;
    }
    static {
        for (Wrapper w : values()) {
            int pi = hashPrim(w.primitiveType);
            int wi = hashWrap(w.wrapperType);
            int ci = hashChar(w.basicTypeChar);
            assert(FROM_PRIM[pi] == null);
            assert(FROM_WRAP[wi] == null);
            assert(FROM_CHAR[ci] == null);
            FROM_PRIM[pi] = w;
            FROM_WRAP[wi] = w;
            FROM_CHAR[ci] = w;
        }
        //assert(jdk.sun.invoke.util.WrapperTest.test(false));
    }

    /** What is the primitive type wrapped by this wrapper? */
    public Class<?> primitiveType() { return primitiveType; }

    /** What is the wrapper type for this wrapper? */
    public Class<?> wrapperType() { return wrapperType; }

    /** What is the wrapper type for this wrapper?
     * Otherwise, the example type must be the wrapper type,
     * or the corresponding primitive type.
     * (For {@code OBJECT}, the example type can be any non-primitive,
     * and is normalized to {@code Object.class}.)
     * The resulting class type has the same type parameter.
     */
    public <T> Class<T> wrapperType(Class<T> exampleType) {
        if (exampleType == wrapperType) {
            return exampleType;
        } else if (exampleType == primitiveType ||
                   wrapperType == Object.class ||
                   exampleType.isInterface()) {
            return forceType(wrapperType, exampleType);
        }
        throw newClassCastException(exampleType, primitiveType);
    }

    private static ClassCastException newClassCastException(Class<?> actual, Class<?> expected) {
        return new ClassCastException(actual + " is not compatible with " + expected);
    }

    /** If {@code type} is a primitive type, return the corresponding
     *  wrapper type, else return {@code type} unchanged.
     */
    public static <T> Class<T> asWrapperType(Class<T> type) {
        if (type.isPrimitive()) {
            return forPrimitiveType(type).wrapperType(type);
        }
        return type;
    }

    /** If {@code type} is a wrapper type, return the corresponding
     *  primitive type, else return {@code type} unchanged.
     */
    public static <T> Class<T> asPrimitiveType(Class<T> type) {
        Wrapper w = findWrapperType(type);
        if (w != null) {
            return forceType(w.primitiveType(), type);
        }
        return type;
    }

    /** Query:  Is the given type a wrapper, such as {@code Integer} or {@code Void}? */
    public static boolean isWrapperType(Class<?> type) {
        return findWrapperType(type) != null;
    }

    /** Query:  Is the given type a primitive, such as {@code int} or {@code void}? */
    public static boolean isPrimitiveType(Class<?> type) {
        return type.isPrimitive();
    }

    /** What is the bytecode signature character for this type?
     *  All non-primitives, including array types, report as 'L', the signature character for references.
     */
    public static char basicTypeChar(Class<?> type) {
        if (!type.isPrimitive())
            return 'L';
        else
            return forPrimitiveType(type).basicTypeChar();
    }

    /** What is the bytecode signature character for this wrapper's
     *  primitive type?
     */
    public char basicTypeChar() { return basicTypeChar; }

    /** What is the simple name of the wrapper type?
     */
    public String wrapperSimpleName() { return wrapperSimpleName; }

    /** What is the simple name of the primitive type?
     */
    public String primitiveSimpleName() { return primitiveSimpleName; }

//    /** Wrap a value in the given type, which may be either a primitive or wrapper type.
//     *  Performs standard primitive conversions, including truncation and float conversions.
//     */
//    public static <T> T wrap(Object x, Class<T> type) {
//        return Wrapper.valueOf(type).cast(x, type);
//    }

    /** Cast a wrapped value to the given type, which may be either a primitive or wrapper type.
     *  The given target type must be this wrapper's primitive or wrapper type.
     *  If this wrapper is OBJECT, the target type may also be an interface, perform no runtime check.
     *  Performs standard primitive conversions, including truncation and float conversions.
     *  The given type must be compatible with this wrapper.  That is, it must either
     *  be the wrapper type (or a subtype, in the case of {@code OBJECT}) or else
     *  it must be the wrapper's primitive type.
     *  Primitive conversions are only performed if the given type is itself a primitive.
     *  @throws ClassCastException if the given type is not compatible with this wrapper
     */
    public <T> T cast(Object x, Class<T> type) {
        return convert(x, type, true);
    }

    /** Convert a wrapped value to the given type.
     *  The given target type must be this wrapper's primitive or wrapper type.
     *  This is equivalent to {@link #cast}, except that it refuses to perform
     *  narrowing primitive conversions.
     */
    public <T> T convert(Object x, Class<T> type) {
        return convert(x, type, false);
    }

    private <T> T convert(Object x, Class<T> type, boolean isCast) {
        if (this == OBJECT) {
            // If the target wrapper is OBJECT, just do a reference cast.
            // If the target type is an interface, perform no runtime check.
            // (This loophole is safe, and is allowed by the JVM verifier.)
            // If the target type is a primitive, change it to a wrapper.
            assert(!type.isPrimitive());
            if (!type.isInterface())
                type.cast(x);
            @SuppressWarnings("unchecked")
            T result = (T) x;  // unchecked warning is expected here
            return result;
        }
        Class<T> wtype = wrapperType(type);
        if (wtype.isInstance(x)) {
            return wtype.cast(x);
        }
        if (!isCast) {
            Class<?> sourceType = x.getClass();  // throw NPE if x is null
            Wrapper source = findWrapperType(sourceType);
            if (source == null || !this.isConvertibleFrom(source)) {
                throw newClassCastException(wtype, sourceType);
            }
        } else if (x == null) {
            @SuppressWarnings("unchecked")
            T z = (T) zero;
            return z;
        }
        @SuppressWarnings("unchecked")
        T result = (T) wrap(x);  // unchecked warning is expected here
        assert (result == null ? Void.class : result.getClass()) == wtype;
        return result;
    }

    /** Cast a reference type to another reference type.
     * If the target type is an interface, perform no runtime check.
     * (This loophole is safe, and is allowed by the JVM verifier.)
     * If the target type is a primitive, change it to a wrapper.
     */
    static <T> Class<T> forceType(Class<?> type, Class<T> exampleType) {
        boolean z = (type == exampleType ||
               type.isPrimitive() && forPrimitiveType(type) == findWrapperType(exampleType) ||
               exampleType.isPrimitive() && forPrimitiveType(exampleType) == findWrapperType(type) ||
               type == Object.class && !exampleType.isPrimitive());
        if (!z)
            System.out.println(type+" <= "+exampleType);
        assert(type == exampleType ||
               type.isPrimitive() && forPrimitiveType(type) == findWrapperType(exampleType) ||
               exampleType.isPrimitive() && forPrimitiveType(exampleType) == findWrapperType(type) ||
               type == Object.class && !exampleType.isPrimitive());
        @SuppressWarnings("unchecked")
        Class<T> result = (Class<T>) type;  // unchecked warning is expected here
        return result;
    }

    /** Wrap a value in this wrapper's type.
     * Performs standard primitive conversions, including truncation and float conversions.
     * Performs returns the unchanged reference for {@code OBJECT}.
     * Returns null for {@code VOID}.
     * Returns a zero value for a null input.
     * @throws ClassCastException if this wrapper is numeric and the operand
     *                            is not a number, character, boolean, or null
     */
    public Object wrap(Object x) {
        // do non-numeric wrappers first
        switch (basicTypeChar) {
            case 'L': return x;
            case 'V': return null;
        }
        Number xn = numberValue(x);
        switch (basicTypeChar) {
            case 'I': return Integer.valueOf(xn.intValue());
            case 'J': return Long.valueOf(xn.longValue());
            case 'F': return Float.valueOf(xn.floatValue());
            case 'D': return Double.valueOf(xn.doubleValue());
            case 'S': return Short.valueOf((short) xn.intValue());
            case 'B': return Byte.valueOf((byte) xn.intValue());
            case 'C': return Character.valueOf((char) xn.intValue());
            case 'Z': return Boolean.valueOf(boolValue(xn.byteValue()));
        }
        throw new InternalError("bad wrapper");
    }

    /** Wrap a value (an int or smaller value) in this wrapper's type.
     * Performs standard primitive conversions, including truncation and float conversions.
     * Produces an {@code Integer} for {@code OBJECT}, although the exact type
     * of the operand is not known.
     * Returns null for {@code VOID}.
     */
    public Object wrap(int x) {

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