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Tools to assist in the reading of configuration/preferences files in various formats

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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package org.apache.commons.configuration2.convert;

import java.lang.reflect.Array;
import java.util.Collection;
import java.util.Iterator;
import java.util.LinkedList;

import org.apache.commons.configuration2.ex.ConversionException;
import org.apache.commons.configuration2.interpol.ConfigurationInterpolator;
import org.apache.commons.lang3.ClassUtils;

/**
 * 

* A default implementation of the {@code ConversionHandler} interface. *

*

* This class implements the standard data type conversions as used by * {@code AbstractConfiguration} and derived classes. There is a central * conversion method - {@code convert()} - for converting a passed in object to * a given target class. The basic implementation already handles a bunch of * standard data type conversions. If other conversions are to be supported, * this method can be overridden. *

*

* The object passed to {@code convert()} can be a single value or a complex * object (like an array, a collection, etc.) containing multiple values. It * lies in the responsibility of {@code convert()} to deal with such complex * objects. The implementation provided by this class tries to extract the first * child element and then delegates to {@code convertValue()} which does the * actual conversion. *

* * @version $Id: DefaultConversionHandler.java 1842194 2018-09-27 22:24:23Z ggregory $ * @since 2.0 */ public class DefaultConversionHandler implements ConversionHandler { /** * A default instance of this class. Because an instance of this class can * be shared between arbitrary objects it is possible to make use of this * default instance anywhere. */ public static final DefaultConversionHandler INSTANCE = new DefaultConversionHandler(); /** The default format for dates. */ public static final String DEFAULT_DATE_FORMAT = "yyyy-MM-dd HH:mm:ss"; /** A helper object used for extracting values from complex objects. */ private static final AbstractListDelimiterHandler EXTRACTOR = (AbstractListDelimiterHandler) DisabledListDelimiterHandler.INSTANCE; /** * Constant for a default {@code ConfigurationInterpolator} to be used if * none is provided by the caller. */ private static final ConfigurationInterpolator NULL_INTERPOLATOR = new ConfigurationInterpolator() { @Override public Object interpolate(final Object value) { return value; } }; /** The current date format. */ private volatile String dateFormat; /** * Returns the date format used by this conversion handler. * * @return the date format */ public String getDateFormat() { final String fmt = dateFormat; return (fmt != null) ? fmt : DEFAULT_DATE_FORMAT; } /** * Sets the date format to be used by this conversion handler. This format * is applied by conversions to {@code Date} or {@code Calendar} objects. * The string is passed to the {@code java.text.SimpleDateFormat} class, so * it must be compatible with this class. If no date format has been set, a * default format is used. * * @param dateFormat the date format string * @see #DEFAULT_DATE_FORMAT */ public void setDateFormat(final String dateFormat) { this.dateFormat = dateFormat; } @Override public T to(final Object src, final Class targetCls, final ConfigurationInterpolator ci) { final ConfigurationInterpolator interpolator = fetchInterpolator(ci); return convert(interpolator.interpolate(src), targetCls, interpolator); } /** * {@inheritDoc} This implementation extracts all values stored in the * passed in source object, converts them to the target type, and adds them * to a result array. Arrays of objects and of primitive types are * supported. If the source object is null, result is null, * too. */ @Override public Object toArray(final Object src, final Class elemClass, final ConfigurationInterpolator ci) { if (src == null) { return null; } if (isEmptyElement(src)) { return Array.newInstance(elemClass, 0); } final ConfigurationInterpolator interpolator = fetchInterpolator(ci); return elemClass.isPrimitive() ? toPrimitiveArray(src, elemClass, interpolator) : toObjectArray(src, elemClass, interpolator); } /** * {@inheritDoc} This implementation extracts all values stored in the * passed in source object, converts them to the target type, and adds them * to the target collection. The target collection must not be null. * If the source object is null, nothing is added to the collection. * * @throws IllegalArgumentException if the target collection is null */ @Override public void toCollection(final Object src, final Class elemClass, final ConfigurationInterpolator ci, final Collection dest) { if (dest == null) { throw new IllegalArgumentException( "Target collection must not be null!"); } if (src != null && !isEmptyElement(src)) { final ConfigurationInterpolator interpolator = fetchInterpolator(ci); convertToCollection(src, elemClass, interpolator, dest); } } /** * Tests whether the passed in object is complex (which means that it * contains multiple values). This method is called by * {@link #convert(Object, Class, ConfigurationInterpolator)} to figure out * whether a actions are required to extract a single value from a complex * source object. This implementation considers the following objects as * complex: *
    *
  • {@code Iterable} objects
  • *
  • {@code Iterator} objects
  • *
  • Arrays
  • *
* * @param src the source object * @return true if this is a complex object, false otherwise */ protected boolean isComplexObject(final Object src) { return src instanceof Iterator || src instanceof Iterable || (src != null && src.getClass().isArray()); } /** * Tests whether the passed in object represents an empty element. This * method is called by conversion methods to arrays or collections. If it * returns true, the resulting array or collection will be empty. * This implementation returns true if and only if the passed in * object is an empty string. With this method it can be controlled if and * how empty elements in configurations are handled. * * @param src the object to be tested * @return a flag whether this object is an empty element */ protected boolean isEmptyElement(final Object src) { return (src instanceof CharSequence) && ((CharSequence) src).length() == 0; } /** * Performs the conversion from the passed in source object to the specified * target class. This method is called for each conversion to be done. The * source object has already been passed to the * {@link ConfigurationInterpolator}, so interpolation does not have to be * done again. (The passed in {@code ConfigurationInterpolator} may still be * necessary for extracting values from complex objects; it is guaranteed to * be non null.) The source object may be a complex object, e.g. a * collection or an array. This base implementation checks whether the * source object is complex. If so, it delegates to * {@link #extractConversionValue(Object, Class, ConfigurationInterpolator)} * to obtain a single value. Eventually, * {@link #convertValue(Object, Class, ConfigurationInterpolator)} is called * with the single value to be converted. * * @param the desired target type of the conversion * @param src the source object to be converted * @param targetCls the desired target class * @param ci the {@code ConfigurationInterpolator} (not null) * @return the converted value * @throws ConversionException if conversion is not possible */ protected T convert(final Object src, final Class targetCls, final ConfigurationInterpolator ci) { final Object conversionSrc = isComplexObject(src) ? extractConversionValue(src, targetCls, ci) : src; return convertValue(ci.interpolate(conversionSrc), targetCls, ci); } /** * Extracts a maximum number of values contained in the given source object * and returns them as flat collection. This method is useful if the caller * only needs a subset of values, e.g. only the first one. * * @param source the source object (may be a single value or a complex * object) * @param limit the number of elements to extract * @return a collection with all extracted values */ protected Collection extractValues(final Object source, final int limit) { return EXTRACTOR.flatten(source, limit); } /** * Extracts all values contained in the given source object and returns them * as a flat collection. * * @param source the source object (may be a single value or a complex * object) * @return a collection with all extracted values */ protected Collection extractValues(final Object source) { return extractValues(source, Integer.MAX_VALUE); } /** * Extracts a single value from a complex object. This method is called by * {@code convert()} if the source object is complex. This implementation * extracts the first value from the complex object and returns it. * * @param container the complex object * @param targetCls the target class of the conversion * @param ci the {@code ConfigurationInterpolator} (not null) * @return the value to be converted (may be null if no values are * found) */ protected Object extractConversionValue(final Object container, final Class targetCls, final ConfigurationInterpolator ci) { final Collection values = extractValues(container, 1); return values.isEmpty() ? null : ci.interpolate(values.iterator() .next()); } /** * Performs a conversion of a single value to the specified target class. * The passed in source object is guaranteed to be a single value, but it * can be null. Derived classes that want to extend the available * conversions, but are happy with the handling of complex objects, just * need to override this method. * * @param the desired target type of the conversion * @param src the source object (a single value) * @param targetCls the target class of the conversion * @param ci the {@code ConfigurationInterpolator} (not null) * @return the converted value * @throws ConversionException if conversion is not possible */ protected T convertValue(final Object src, final Class targetCls, final ConfigurationInterpolator ci) { if (src == null) { return null; } // This is a safe cast because PropertyConverter either returns an // object of the correct class or throws an exception. @SuppressWarnings("unchecked") final T result = (T) PropertyConverter.to(targetCls, src, this); return result; } /** * Converts the given source object to an array of objects. * * @param src the source object * @param elemClass the element class of the array * @param ci the {@code ConfigurationInterpolator} * @return the result array * @throws ConversionException if a conversion cannot be performed */ private T[] toObjectArray(final Object src, final Class elemClass, final ConfigurationInterpolator ci) { final Collection convertedCol = new LinkedList<>(); convertToCollection(src, elemClass, ci, convertedCol); // Safe to cast because the element class is specified @SuppressWarnings("unchecked") final T[] result = (T[]) Array.newInstance(elemClass, convertedCol.size()); return convertedCol.toArray(result); } /** * Converts the given source object to an array of a primitive type. This * method performs some checks whether the source object is already an array * of the correct type or a corresponding wrapper type. If not, all values * are extracted, converted one by one, and stored in a newly created array. * * @param src the source object * @param elemClass the element class of the array * @param ci the {@code ConfigurationInterpolator} * @return the result array * @throws ConversionException if a conversion cannot be performed */ private Object toPrimitiveArray(final Object src, final Class elemClass, final ConfigurationInterpolator ci) { if (src.getClass().isArray()) { if (src.getClass().getComponentType().equals(elemClass)) { return src; } if (src.getClass().getComponentType() .equals(ClassUtils.primitiveToWrapper(elemClass))) { // the value is an array of the wrapper type derived from the // specified primitive type final int length = Array.getLength(src); final Object array = Array.newInstance(elemClass, length); for (int i = 0; i < length; i++) { Array.set(array, i, Array.get(src, i)); } return array; } } final Collection values = extractValues(src); final Class targetClass = ClassUtils.primitiveToWrapper(elemClass); final Object array = Array.newInstance(elemClass, values.size()); int idx = 0; for (final Object value : values) { Array.set(array, idx++, convertValue(ci.interpolate(value), targetClass, ci)); } return array; } /** * Helper method for converting all values of a source object and storing * them in a collection. * * @param the target type of the conversion * @param src the source object * @param elemClass the target class of the conversion * @param ci the {@code ConfigurationInterpolator} * @param dest the collection in which to store the results * @throws ConversionException if a conversion cannot be performed */ private void convertToCollection(final Object src, final Class elemClass, final ConfigurationInterpolator ci, final Collection dest) { for (final Object o : extractValues(ci.interpolate(src))) { dest.add(convert(o, elemClass, ci)); } } /** * Obtains a {@code ConfigurationInterpolator}. If the passed in one is not * null, it is used. Otherwise, a default one is returned. * * @param ci the {@code ConfigurationInterpolator} provided by the caller * @return the {@code ConfigurationInterpolator} to be used */ private static ConfigurationInterpolator fetchInterpolator( final ConfigurationInterpolator ci) { return (ci != null) ? ci : NULL_INTERPOLATOR; } }




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