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Java Simplified. Extensions and Useful Constructs for the Java Platform.
Codeprimate Elements (a.k.a. cp-elements) is a Java library and micro-framework used to simplify
the development of software applications written in Java. Elements packages several APIs into one
library in order to address various application concerns and aspects of software design and development
collectively and conveniently. Elements is a highly simple, yet robust and proven library built on
solid OO principles, software design patterns and best practices to effectively solve common
and reoccurring problems in software development.
/*
* Copyright 2016 Author or Authors.
*
* Licensed 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.cp.elements.util;
import static org.cp.elements.util.ArrayUtils.nullSafeArray;
import static org.cp.elements.util.ArrayUtils.nullSafeLength;
import java.util.ArrayList;
import java.util.Collections;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.TreeMap;
import java.util.stream.Collectors;
import org.cp.elements.lang.Assert;
import org.cp.elements.lang.Filter;
import org.cp.elements.lang.FilteringTransformer;
import org.cp.elements.lang.NullSafe;
import org.cp.elements.lang.StringUtils;
import org.cp.elements.lang.Transformer;
/**
* The MapUtils class provides utility methods for working with the Java Collections Framework and specifically
* the {@link Map} class.
*
* @author John J. Blum
* @see java.util.Collections
* @see java.util.Map
* @see java.util.stream.Collectors
* @since 1.0.0
*/
@SuppressWarnings("unused")
public abstract class MapUtils {
/**
* Determines the number of entries (key-value pairs) in the {@link Map}. This method is null-safe and will
* return 0 if the {@link Map} is null or empty.
*
* @param Class type of the key.
* @param Class type of the value.
* @param map {@link Map} to evaluate.
* @return the size, or number of elements in the {@link Map}, returning 0 if the {@link Map} is null or empty.
*/
@NullSafe
public static int count(Map map) {
return (map != null ? map.size() : 0);
}
/**
* Counts the number of entries (key-value pairs) in the {@link Map} accepted by the {@link Filter}.
*
* @param Class type of the key.
* @param Class type of the value.
* @param map {@link Map} to evaluate.
* @param filter {@link Filter} used to determine the number of entries in the {@link Map} accepted by
* the {@link Filter}.
* @return an integer value indicating the number of entries in the {@link Map} accepted by the {@link Filter}.
* @throws IllegalArgumentException if {@link Filter} is null.
* @see org.cp.elements.lang.Filter
* @see java.util.Map
*/
public static int count(Map map, Filter> filter) {
Assert.notNull(filter, "Filter cannot be null");
int count = 0;
for (Map.Entry entry : nullSafeMap(map).entrySet()) {
if (filter.accept(entry)) {
count++;
}
}
return count;
}
/**
* Returns a filtered {@link Map} containing only the key-value entries from the given {@link Map} that are accepted
* by the {@link Filter}.
*
* @param Class type of the key.
* @param Class type of the value.
* @param map {@link Map} to filter.
* @param filter {@link Filter} used to filter the {@link Map}.
* @return a filtered {@link Map} containing only the key-value entries from the given {@link Map} }accepted by
* the {@link Filter}.
* @throws IllegalArgumentException if either the {@link Map} or {@link Filter} are null.
* @see org.cp.elements.lang.Filter
* @see java.util.Map
*/
public static Map filter(Map map, Filter> filter) {
Assert.notNull(map, "Map cannot be null");
Assert.notNull(filter, "Filter cannot be null");
return map.entrySet().stream().filter(filter::accept).collect(Collectors.toMap(
Map.Entry::getKey, Map.Entry::getValue));
}
/**
* Filters and transform the entries in the given {@link Map} using the provided {@link FilteringTransformer}.
*
* @param Class type of the key.
* @param Class type of the value.
* @param map {@link Map} to filter and transform.
* @param filteringTransformer {@link FilteringTransformer} used to filter and transform the given {@link Map}.
* @return a filtered, transformed {@link Map} of entries from the given {@link Map}.
* @throws IllegalArgumentException if the {@link Map} or {@link FilteringTransformer} are null.
* @see org.cp.elements.lang.FilteringTransformer
* @see java.util.Map
* @see #filter(Map, Filter)
* @see #transform(Map, Transformer)
*/
public static Map filterAndTransform(Map map,
FilteringTransformer> filteringTransformer) {
Assert.notNull(map, "Map cannot be null");
Assert.notNull(filteringTransformer, "FilteringTransformer cannot be null");
return map.entrySet().stream().filter(filteringTransformer::accept).map(filteringTransformer::transform).collect(
Collectors.toMap(Map.Entry::getKey, Map.Entry::getValue));
}
/**
* Finds all key-value entries from the given {@link Map} accepted by the {@link Filter}.
*
* @param Class type of the key.
* @param Class type of the value.
* @param map {@link Map} to search.
* @param filter {@link Filter} used to find matching key-value entries from the {@link Map}.
* @return a new {@link Map} containing key-value entries from the given {@link Map} accepted by the {@link Filter}.
* @throws IllegalArgumentException if either the {@link Map} or {@link Filter} are null.
* @see org.cp.elements.lang.Filter
* @see java.util.Map
* @see #filter(Map, Filter)
*/
public static Map findAll(Map map, Filter> filter) {
return filter(map, filter);
}
/**
* Converts the given associative array into a {@link Map}.
*
* @param associativeArray associate array to convert into a {@link Map}.
* @return a {@link Map} populated with the key/value pairs in the associate array.
* @see ArrayUtils#nullSafeArray(Object[], Class)
* @see ArrayUtils#nullSafeLength(Object[])
*/
@NullSafe
public static Map fromAssociativeArray(String[] associativeArray) {
Map map = new HashMap<>(nullSafeLength(associativeArray));
int index = 0;
for (String element : nullSafeArray(associativeArray, String.class)) {
Assert.hasText(element, "Entry [%s] at index [%d] must be specified", element, index);
String[] entry = element.split("=");
Assert.isTrue(entry.length == 2, "Entry [%s] at index [%d] must have both a key and a value", element, index);
String key = StringUtils.trim(entry[0]);
String value = StringUtils.trim(entry[1]);
map.put(key, value);
index++;
}
return map;
}
/**
* Determines whether the given {@link Map} is empty. A {@link Map} is empty if it contains no entries or is null.
*
* @param map {@link Map} to evaluate.
* @return a boolean value indicating whether the {@link Map} is empty.
* @see java.util.Map#isEmpty()
* @see #isNotEmpty(Map)
*/
@NullSafe
public static boolean isEmpty(Map map) {
return (map == null || map.isEmpty());
}
/**
* Determines whether the given {@link Map} is not empty. A {@link Map} is considered non-empty if it is not null
* and contains at least 1 entry.
*
* @param map {@link Map} to evaluate.
* @return a boolean value indicating whether the {@link Map} is not empty.
* @see java.util.Map#isEmpty()
* @see #isEmpty(Map)
*/
@NullSafe
public static boolean isNotEmpty(Map map) {
return !isEmpty(map);
}
/**
* Returns the given {@link Map} if not null or an empty {@link Map}.
*
* @param Class type of the key.
* @param Class type of the value.
* @param map the {@link Map} to evaluate.
* @return the given {@link Map} if not null or an empty {@link Map} otherwise.
* @see java.util.Collections#emptyMap()
* @see java.util.Map
*/
@NullSafe
public static Map nullSafeMap(Map map) {
return (map != null ? map : Collections.emptyMap());
}
/**
* Determines the size, or number of entries in the {@link Map}, returning 0 if the {@link Map} is null or empty.
*
* @param map {@link Map} to evaluate.
* @return an integer value indicating the size or number of entries in the {@link Map}.
* @see java.util.Map#size()
* @see #count(Map)
*/
@NullSafe
public static int size(Map, ?> map) {
return count(map);
}
/**
* Converts the given {@link Map} into an associative array.
*
* The associative array takes the form of [key1=value1, key2=value2, ..., keyN=valueN].
*
* @param map {@link Map} to convert into an associative array.
* @return an associative {@link String} array containing the keys and values
* from the given {@link Map}.
* @see java.util.Map
* @see #size(Map)
* @see #nullSafeMap(Map)
*/
@NullSafe
public static String[] toAssociativeArray(Map, ?> map) {
List list = new ArrayList<>(size(map));
for (Map.Entry, ?> entry : nullSafeMap(map).entrySet()) {
list.add(String.format("%1$s=%2$s", String.valueOf(entry.getKey()), entry.getValue()));
}
return list.toArray(new String[list.size()]);
}
/**
* Prints the given {@link Map} as a {@link String}.
*
* @param map {@link Map} to print as a {@link String}.
* @return a {@link String} representation of the given {@link Map}.
* @see java.lang.String
* @see java.util.Map
*/
@NullSafe
public static String toString(Map, ?> map) {
StringBuilder builder = new StringBuilder("[");
int count = 0;
map = new TreeMap