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ForSt fat jar with modifications specific for Apache Flink that contains .so files for linux32 and linux64 (glibc and musl-libc), jnilib files
for Mac OSX, and a .dll for Windows x64.
The newest version!
// Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved.
package org.forstdb;
import java.util.*;
/**
* This class is not strictly abstract in Java language terms, so we do not declare it as such.
* The name remains {@code AbstractMutableOptions} to reflect the underlying C++ name.
* The constructor is protected, so it will always be used as a base class.
*/
public class AbstractMutableOptions {
protected static final String KEY_VALUE_PAIR_SEPARATOR = ";";
protected static final char KEY_VALUE_SEPARATOR = '=';
static final String INT_ARRAY_INT_SEPARATOR = ":";
private static final String HAS_NOT_BEEN_SET = " has not been set";
protected final String[] keys;
private final String[] values;
/**
* User must use builder pattern, or parser.
*
* @param keys the keys
* @param values the values
*/
@SuppressWarnings("PMD.ArrayIsStoredDirectly")
protected AbstractMutableOptions(final String[] keys, final String[] values) {
this.keys = keys;
this.values = values;
}
@SuppressWarnings("PMD.MethodReturnsInternalArray")
String[] getKeys() {
return keys;
}
@SuppressWarnings("PMD.MethodReturnsInternalArray")
String[] getValues() {
return values;
}
/**
* Returns a string representation of MutableOptions which
* is suitable for consumption by {@code #parse(String)}.
*
* @return String representation of MutableOptions
*/
@Override
public String toString() {
final StringBuilder buffer = new StringBuilder();
for(int i = 0; i < keys.length; i++) {
buffer
.append(keys[i])
.append(KEY_VALUE_SEPARATOR)
.append(values[i]);
if(i + 1 < keys.length) {
buffer.append(KEY_VALUE_PAIR_SEPARATOR);
}
}
return buffer.toString();
}
public abstract static class AbstractMutableOptionsBuilder<
T extends AbstractMutableOptions, U extends AbstractMutableOptionsBuilder, K
extends MutableOptionKey> {
private final Map> options = new LinkedHashMap<>();
private final List unknown = new ArrayList<>();
protected abstract U self();
/**
* Get all the possible keys
*
* @return A map of all keys, indexed by name.
*/
protected abstract Map allKeys();
/**
* Construct a subclass instance of {@link AbstractMutableOptions}.
*
* @param keys the keys
* @param values the values
*
* @return an instance of the options.
*/
protected abstract T build(final String[] keys, final String[] values);
public T build() {
final String[] keys = new String[options.size()];
final String[] values = new String[options.size()];
int i = 0;
for (final Map.Entry> option : options.entrySet()) {
keys[i] = option.getKey().name();
values[i] = option.getValue().asString();
i++;
}
return build(keys, values);
}
protected U setDouble(
final K key, final double value) {
if (key.getValueType() != MutableOptionKey.ValueType.DOUBLE) {
throw new IllegalArgumentException(
key + " does not accept a double value");
}
options.put(key, MutableOptionValue.fromDouble(value));
return self();
}
protected double getDouble(final K key)
throws NoSuchElementException, NumberFormatException {
final MutableOptionValue> value = options.get(key);
if(value == null) {
throw new NoSuchElementException(key.name() + HAS_NOT_BEEN_SET);
}
return value.asDouble();
}
protected U setLong(
final K key, final long value) {
if(key.getValueType() != MutableOptionKey.ValueType.LONG) {
throw new IllegalArgumentException(
key + " does not accept a long value");
}
options.put(key, MutableOptionValue.fromLong(value));
return self();
}
protected long getLong(final K key)
throws NoSuchElementException, NumberFormatException {
final MutableOptionValue> value = options.get(key);
if(value == null) {
throw new NoSuchElementException(key.name() + HAS_NOT_BEEN_SET);
}
return value.asLong();
}
protected U setInt(
final K key, final int value) {
if(key.getValueType() != MutableOptionKey.ValueType.INT) {
throw new IllegalArgumentException(
key + " does not accept an integer value");
}
options.put(key, MutableOptionValue.fromInt(value));
return self();
}
protected int getInt(final K key)
throws NoSuchElementException, NumberFormatException {
final MutableOptionValue> value = options.get(key);
if(value == null) {
throw new NoSuchElementException(key.name() + HAS_NOT_BEEN_SET);
}
return value.asInt();
}
protected U setBoolean(
final K key, final boolean value) {
if(key.getValueType() != MutableOptionKey.ValueType.BOOLEAN) {
throw new IllegalArgumentException(
key + " does not accept a boolean value");
}
options.put(key, MutableOptionValue.fromBoolean(value));
return self();
}
protected boolean getBoolean(final K key)
throws NoSuchElementException, NumberFormatException {
final MutableOptionValue> value = options.get(key);
if(value == null) {
throw new NoSuchElementException(key.name() + HAS_NOT_BEEN_SET);
}
return value.asBoolean();
}
protected U setIntArray(
final K key, final int[] value) {
if(key.getValueType() != MutableOptionKey.ValueType.INT_ARRAY) {
throw new IllegalArgumentException(
key + " does not accept an int array value");
}
options.put(key, MutableOptionValue.fromIntArray(value));
return self();
}
protected int[] getIntArray(final K key)
throws NoSuchElementException, NumberFormatException {
final MutableOptionValue> value = options.get(key);
if(value == null) {
throw new NoSuchElementException(key.name() + HAS_NOT_BEEN_SET);
}
return value.asIntArray();
}
protected > U setEnum(
final K key, final N value) {
if(key.getValueType() != MutableOptionKey.ValueType.ENUM) {
throw new IllegalArgumentException(
key + " does not accept a Enum value");
}
options.put(key, MutableOptionValue.fromEnum(value));
return self();
}
@SuppressWarnings("unchecked")
protected > N getEnum(final K key)
throws NoSuchElementException, NumberFormatException {
final MutableOptionValue> value = options.get(key);
if (value == null) {
throw new NoSuchElementException(key.name() + HAS_NOT_BEEN_SET);
}
if (!(value instanceof MutableOptionValue.MutableOptionEnumValue)) {
throw new NoSuchElementException(key.name() + " is not of Enum type");
}
return ((MutableOptionValue.MutableOptionEnumValue) value).asObject();
}
/**
* Parse a string into a long value, accepting values expressed as a double (such as 9.00) which
* are meant to be a long, not a double
*
* @param value the string containing a value which represents a long
* @return the long value of the parsed string
*/
private long parseAsLong(final String value) {
try {
return Long.parseLong(value);
} catch (final NumberFormatException nfe) {
final double doubleValue = Double.parseDouble(value);
if (doubleValue != Math.round(doubleValue))
throw new IllegalArgumentException("Unable to parse or round " + value + " to long", nfe);
return Math.round(doubleValue);
}
}
/**
* Parse a string into an int value, accepting values expressed as a double (such as 9.00) which
* are meant to be an int, not a double
*
* @param value the string containing a value which represents an int
* @return the int value of the parsed string
*/
private int parseAsInt(final String value) {
try {
return Integer.parseInt(value);
} catch (final NumberFormatException nfe) {
final double doubleValue = Double.parseDouble(value);
if (doubleValue != Math.round(doubleValue))
throw new IllegalArgumentException("Unable to parse or round " + value + " to int", nfe);
return (int) Math.round(doubleValue);
}
}
/**
* Constructs a builder for mutable column family options from a hierarchical parsed options
* string representation. The {@link OptionString.Parser} class output has been used to create a
* (name,value)-list; each value may be either a simple string or a (name, value)-list in turn.
*
* @param options a list of parsed option string objects
* @param ignoreUnknown what to do if the key is not one of the keys we expect
*
* @return a builder with the values from the parsed input set
*
* @throws IllegalArgumentException if an option value is of the wrong type, or a key is empty
*/
protected U fromParsed(final List options, final boolean ignoreUnknown) {
Objects.requireNonNull(options);
for (final OptionString.Entry option : options) {
try {
if (option.key.isEmpty()) {
throw new IllegalArgumentException("options string is invalid: " + option);
}
fromOptionString(option, ignoreUnknown);
} catch (final NumberFormatException nfe) {
throw new IllegalArgumentException(
"" + option.key + "=" + option.value + " - not a valid value for its type", nfe);
}
}
return self();
}
/**
* Set a value in the builder from the supplied option string
*
* @param option the option key/value to add to this builder
* @param ignoreUnknown if this is not set, throw an exception when a key is not in the known
* set
* @return the same object, after adding options
* @throws IllegalArgumentException if the key is unknown, or a value has the wrong type/form
*/
@SuppressWarnings("PMD.AvoidLiteralsInIfCondition")
private U fromOptionString(final OptionString.Entry option, final boolean ignoreUnknown)
throws IllegalArgumentException {
Objects.requireNonNull(option.key);
Objects.requireNonNull(option.value);
final K key = allKeys().get(option.key);
if (key == null && ignoreUnknown) {
unknown.add(option);
return self();
} else if (key == null) {
throw new IllegalArgumentException("Key: " + null + " is not a known option key");
}
if (!option.value.isList()) {
throw new IllegalArgumentException(
"Option: " + key + " is not a simple value or list, don't know how to parse it");
}
// Check that simple values are the single item in the array
if (key.getValueType() != MutableOptionKey.ValueType.INT_ARRAY) {
{
if (option.value.list.size() != 1) {
throw new IllegalArgumentException(
"Simple value does not have exactly 1 item: " + option.value.list);
}
}
}
final List valueStrs = option.value.list;
final String valueStr = valueStrs.get(0);
switch (key.getValueType()) {
case DOUBLE:
return setDouble(key, Double.parseDouble(valueStr));
case LONG:
return setLong(key, parseAsLong(valueStr));
case INT:
return setInt(key, parseAsInt(valueStr));
case BOOLEAN:
return setBoolean(key, Boolean.parseBoolean(valueStr));
case INT_ARRAY:
final int[] value = new int[valueStrs.size()];
for (int i = 0; i < valueStrs.size(); i++) {
value[i] = Integer.parseInt(valueStrs.get(i));
}
return setIntArray(key, value);
case ENUM:
final String optionName = key.name();
if ("prepopulate_blob_cache".equals(optionName)) {
final PrepopulateBlobCache prepopulateBlobCache =
PrepopulateBlobCache.getFromInternal(valueStr);
return setEnum(key, prepopulateBlobCache);
} else if ("compression".equals(optionName)
|| "blob_compression_type".equals(optionName)) {
final CompressionType compressionType = CompressionType.getFromInternal(valueStr);
return setEnum(key, compressionType);
} else {
throw new IllegalArgumentException("Unknown enum type: " + key.name());
}
default:
throw new IllegalStateException(key + " has unknown value type: " + key.getValueType());
}
}
/**
*
* @return the list of keys encountered which were not known to the type being generated
*/
public List getUnknown() {
return new ArrayList<>(unknown);
}
}
}