package com.fasterxml.jackson.databind.util; import java.lang.reflect.Array; import java.util.*; /** * Helper class that contains set of distinct builders for different * arrays of primitive values. It also provides trivially simple * reuse scheme, which assumes that caller knows not to use instances * concurrently (which works ok with primitive arrays since they can * not contain other non-primitive types). * Also note that instances are not thread safe; the intent is that * a builder is constructed on per-call (deserialization) basis. */ public final class ArrayBuilders { private BooleanBuilder _booleanBuilder = null; // note: no need for char[] builder, assume they are Strings private ByteBuilder _byteBuilder = null; private ShortBuilder _shortBuilder = null; private IntBuilder _intBuilder = null; private LongBuilder _longBuilder = null; private FloatBuilder _floatBuilder = null; private DoubleBuilder _doubleBuilder = null; public ArrayBuilders() { } public BooleanBuilder getBooleanBuilder() { if (_booleanBuilder == null) { _booleanBuilder = new BooleanBuilder(); } return _booleanBuilder; } public ByteBuilder getByteBuilder() { if (_byteBuilder == null) { _byteBuilder = new ByteBuilder(); } return _byteBuilder; } public ShortBuilder getShortBuilder() { if (_shortBuilder == null) { _shortBuilder = new ShortBuilder(); } return _shortBuilder; } public IntBuilder getIntBuilder() { if (_intBuilder == null) { _intBuilder = new IntBuilder(); } return _intBuilder; } public LongBuilder getLongBuilder() { if (_longBuilder == null) { _longBuilder = new LongBuilder(); } return _longBuilder; } public FloatBuilder getFloatBuilder() { if (_floatBuilder == null) { _floatBuilder = new FloatBuilder(); } return _floatBuilder; } public DoubleBuilder getDoubleBuilder() { if (_doubleBuilder == null) { _doubleBuilder = new DoubleBuilder(); } return _doubleBuilder; } /* /********************************************************** /* Impl classes /********************************************************** */ public final static class BooleanBuilder extends PrimitiveArrayBuilder { public BooleanBuilder() { } @Override public final boolean[] _constructArray(int len) { return new boolean[len]; } } public final static class ByteBuilder extends PrimitiveArrayBuilder { public ByteBuilder() { } @Override public final byte[] _constructArray(int len) { return new byte[len]; } } public final static class ShortBuilder extends PrimitiveArrayBuilder { public ShortBuilder() { } @Override public final short[] _constructArray(int len) { return new short[len]; } } public final static class IntBuilder extends PrimitiveArrayBuilder { public IntBuilder() { } @Override public final int[] _constructArray(int len) { return new int[len]; } } public final static class LongBuilder extends PrimitiveArrayBuilder { public LongBuilder() { } @Override public final long[] _constructArray(int len) { return new long[len]; } } public final static class FloatBuilder extends PrimitiveArrayBuilder { public FloatBuilder() { } @Override public final float[] _constructArray(int len) { return new float[len]; } } public final static class DoubleBuilder extends PrimitiveArrayBuilder { public DoubleBuilder() { } @Override public final double[] _constructArray(int len) { return new double[len]; } } /* /********************************************************** /* Static helper methods /********************************************************** */ /** * Helper method used for constructing simple value comparator used for * comparing arrays for content equality. *

* Note: current implementation is not optimized for speed; if performance * ever becomes an issue, it is possible to construct much more efficient * typed instances (one for Object[] and sub-types; one per primitive type). * * @since 2.2 Moved from earlier Comparators class */ public static Object getArrayComparator(final Object defaultValue) { final int length = Array.getLength(defaultValue); final Class defaultValueType = defaultValue.getClass(); return new Object() { @Override public boolean equals(Object other) { if (other == this) return true; if (!ClassUtil.hasClass(other, defaultValueType)) { return false; } if (Array.getLength(other) != length) return false; // so far so good: compare actual equality; but only shallow one for (int i = 0; i < length; ++i) { Object value1 = Array.get(defaultValue, i); Object value2 = Array.get(other, i); if (value1 == value2) continue; if (value1 != null) { if (!value1.equals(value2)) { return false; } } } return true; } }; } public static HashSet arrayToSet(T[] elements) { if (elements != null) { int len = elements.length; HashSet result = new HashSet(len); for (int i = 0; i < len; ++i) { result.add(elements[i]); } return result; } return new HashSet(); } /** * Helper method for constructing a new array that contains specified * element followed by contents of the given array but never contains * duplicates. * If element already existed, one of two things happens: if the element * was already the first one in array, array is returned as is; but * if not, a new copy is created in which element has moved as the head. */ @SuppressWarnings("unchecked") public static T[] insertInListNoDup(T[] array, T element) { final int len = array.length; // First: see if the element already exists for (int ix = 0; ix < len; ++ix) { if (array[ix] == element) { // if at head already, return as is if (ix == 0) { return array; } // otherwise move things around T[] result = (T[]) Array.newInstance(array.getClass().getComponentType(), len); System.arraycopy(array, 0, result, 1, ix); result[0] = element; ++ix; int left = len - ix; if (left > 0) { System.arraycopy(array, ix, result, ix, left); } return result; } } // but if not, allocate new array, move T[] result = (T[]) Array.newInstance(array.getClass().getComponentType(), len+1); if (len > 0) { System.arraycopy(array, 0, result, 1, len); } result[0] = element; return result; } }