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/*
 * Copyright 2013-2016 Amazon.com, Inc. or its affiliates. All Rights Reserved.
 *
 * Licensed under the Apache License, Version 2.0 (the "License").
 * You may not use this file except in compliance with the License.
 * A copy of the License is located at:
 *
 *     http://aws.amazon.com/apache2.0/
 *
 * or in the "license" file accompanying this file. This file 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 software.amazon.ion.impl;

import static software.amazon.ion.SystemSymbols.ION;
import static software.amazon.ion.SystemSymbols.ION_1_0;
import static software.amazon.ion.SystemSymbols.NAME_SID;
import static software.amazon.ion.SystemSymbols.SYMBOLS_SID;
import static software.amazon.ion.SystemSymbols.VERSION_SID;
import static software.amazon.ion.impl.PrivateUtils.getSidForSymbolTableField;

import java.io.IOException;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import software.amazon.ion.IonException;
import software.amazon.ion.IonReader;
import software.amazon.ion.IonStruct;
import software.amazon.ion.IonSystem;
import software.amazon.ion.IonType;
import software.amazon.ion.IonWriter;
import software.amazon.ion.ReadOnlyValueException;
import software.amazon.ion.SymbolTable;
import software.amazon.ion.SymbolToken;
import software.amazon.ion.SystemSymbols;

/**
 * An immutable shared symbol table, supporting (non-system) shared
 * symbol tables and system symbol tables.
 * 

* Instances of this class are safe for use by multiple threads. */ final class SharedSymbolTable implements SymbolTable { /** * The array of system symbols as defined by Ion 1.0. */ private static final String[] SYSTEM_SYMBOLS = { SystemSymbols.ION, SystemSymbols.ION_1_0, SystemSymbols.ION_SYMBOL_TABLE, SystemSymbols.NAME, SystemSymbols.VERSION, SystemSymbols.IMPORTS, SystemSymbols.SYMBOLS, SystemSymbols.MAX_ID, SystemSymbols.ION_SHARED_SYMBOL_TABLE }; /** * The singleton instance of Ion 1.0 system symbol table. *

* TODO amzn/ion-java#34 Optimize system symtabs by using our custom backing impl. */ private static final SymbolTable ION_1_0_SYSTEM_SYMTAB; static { Map systemSymbolsMap = new HashMap(); for (int i = 0; i < SYSTEM_SYMBOLS.length; i++) { systemSymbolsMap.put(SYSTEM_SYMBOLS[i], i+1); } ION_1_0_SYSTEM_SYMTAB = new SharedSymbolTable(ION, 1, SYSTEM_SYMBOLS, systemSymbolsMap); } /** * The name of this shared symbol table. If this is a system symbol * table, it is {@link SystemSymbols#ION}. */ private final String myName; /** * The version of this shared symbol table. */ private final int myVersion; /** * The names (aka text) of declared symbols in this shared symbol * table (that are not imported from some other symbol table); never null. * The sid of the first element is 1. *

* Note that null references are valid elements within this member field, * denoting undefined symbol IDs ("gaps"). */ private final String[] mySymbolNames; /** * Map of symbol names to symbol ids of declared symbols. */ private final Map mySymbolsMap; //========================================================================== // Private constructor(s) and static factory methods //========================================================================== private SharedSymbolTable(String name, int version, List symbolsList, Map symbolsMap) { myName = name; myVersion = version; mySymbolsMap = symbolsMap; // Construct primitive fixed-length array from the passed-in List mySymbolNames = symbolsList.toArray(new String[symbolsList.size()]); } private SharedSymbolTable(String name, int version, String[] symbolNames, Map symbolsMap) { myName = name; myVersion = version; mySymbolsMap = symbolsMap; mySymbolNames = symbolNames; } /** * Constructs a new shared symbol table from the parameters. *

* As per {@link IonSystem#newSharedSymbolTable(String, int, Iterator, SymbolTable...)}, * any duplicate or null symbol texts are skipped. *

* Therefore, THIS METHOD IS NOT SUITABLE WHEN READING SERIALIZED * SHARED SYMBOL TABLES since that scenario must preserve all sids. * * @param name the name of the new shared symbol table * @param version the version of the new shared symbol table * @param priorSymtab may be null * @param symbols never null */ static SymbolTable newSharedSymbolTable(String name, int version, SymbolTable priorSymtab, Iterator symbols) { if (name == null || name.length() < 1) { throw new IllegalArgumentException("name must be non-empty"); } if (version < 1) { throw new IllegalArgumentException("version must be at least 1"); } List symbolsList = new ArrayList(); Map symbolsMap = new HashMap(); assert version == (priorSymtab == null ? 1 : priorSymtab.getVersion() + 1); prepSymbolsListAndMap(priorSymtab, symbols, symbolsList, symbolsMap); // We have all necessary data, pass it over to the private constructor. return new SharedSymbolTable(name, version, symbolsList, symbolsMap); } /** * Constructs a new shared symbol table represented by the passed in * {@link IonStruct}. * * @param ionRep * the {@link IonStruct} representing the new shared symbol table * @return */ static SymbolTable newSharedSymbolTable(IonStruct ionRep) { IonReader reader = new IonReaderTreeSystem(ionRep); return newSharedSymbolTable(reader, false); } /** * Constructs a new shared symbol table represented by the current value * of the passed in {@link IonReader}. * * @param reader * the {@link IonReader} positioned on the shared symbol table * represented as an {@link IonStruct} * @param isOnStruct * denotes whether the {@link IonReader} is already positioned on * the struct; false if it is positioned before the struct * @return */ static SymbolTable newSharedSymbolTable(IonReader reader, boolean isOnStruct) { if (! isOnStruct) { IonType t = reader.next(); if (t != IonType.STRUCT) { throw new IonException("invalid symbol table image passed " + "into reader, " + t + " encountered when a " + "struct was expected"); } } String name = null; int version = -1; List symbolsList = new ArrayList(); reader.stepIn(); IonType fieldType = null; while ((fieldType = reader.next()) != null) { if (reader.isNullValue()) continue; SymbolToken symTok = reader.getFieldNameSymbol(); int sid = symTok.getSid(); if (sid == SymbolTable.UNKNOWN_SYMBOL_ID) { // This is a user-defined IonReader or a pure DOM, fall // back to text final String fieldName = reader.getFieldName(); sid = getSidForSymbolTableField(fieldName); } // TODO amzn/ion-java#35 If there's more than one 'symbols' or 'imports' // field, they will be merged together. // TODO amzn/ion-java#36 Switching over SIDs doesn't cover the case // where the relevant field names are defined by a prev LST; // the prev LST could have 'symbols' defined locally with a // different SID! switch (sid) { case VERSION_SID: if (fieldType == IonType.INT) { version = reader.intValue(); } break; case NAME_SID: if (fieldType == IonType.STRING) { name = reader.stringValue(); } break; case SYMBOLS_SID: // As per the Spec, other field types are treated as // empty lists if (fieldType == IonType.LIST) { reader.stepIn(); { IonType t; while ((t = reader.next()) != null) { String text = null; if (t == IonType.STRING && ! reader.isNullValue()) { // As per the Spec, if any element of // the list is the empty string or any // other type, treat it as null text = reader.stringValue(); if (text.length() == 0) text = null; } symbolsList.add(text); } } reader.stepOut(); } break; default: break; } } reader.stepOut(); if (name == null || name.length() == 0) { String message = "shared symbol table is malformed: field 'name' " + "must be a non-empty string."; throw new IonException(message); } // As per the Spec, if 'version' field is missing or not at // least 1, treat it as 1. version = (version < 1) ? 1 : version; Map symbolsMap = null; if (! symbolsList.isEmpty()) { symbolsMap = new HashMap(); transferNonExistingSymbols(symbolsList, symbolsMap); } else { // Empty Map is more efficient than an empty HashMap symbolsMap = Collections.emptyMap(); } // We have all necessary data, pass it over to the private constructor. return new SharedSymbolTable(name, version, symbolsList, symbolsMap); } /** * Gets a specific version of the system symbol table. * * @param version * the specified version of the system symbol table; currently, * only version 1 (Ion 1.0) is supported * @return * * @throws IllegalArgumentException if the specified version isn't supported */ static SymbolTable getSystemSymbolTable(int version) { if (version != 1) { throw new IllegalArgumentException("only Ion 1.0 system " + "symbols are supported"); } return ION_1_0_SYSTEM_SYMTAB; } //========================================================================== // Static methods relating to construction //========================================================================== private static void putToMapIfNotThere(Map symbolsMap, String text, int sid) { // When there's a duplicate mapping for the symbol text, don't // replace the lower sid. This pattern avoids double-lookup in the // common scenario and only performs a second lookup when there's // a duplicate. Integer extantSid = symbolsMap.put(text, sid); if (extantSid != null) { // We always insert symbols with increasing sids assert extantSid < sid; symbolsMap.put(text, extantSid); } } /** * Collects the necessary symbols from {@code priorSymtab} and * {@code symbols}, and load them into the passed-in {@code symbolsList} and * {@code symbolsMap}. */ private static void prepSymbolsListAndMap(SymbolTable priorSymtab, Iterator symbols, List symbolsList, Map symbolsMap) { int sid = 1; // Collect from passed-in priorSymtab if (priorSymtab != null) { Iterator priorSymbols = priorSymtab.iterateDeclaredSymbolNames(); while (priorSymbols.hasNext()) { String text = priorSymbols.next(); if (text != null) { assert text.length() > 0; putToMapIfNotThere(symbolsMap, text, sid); } // NB: Null entries must be added in the sid sequence // to retain compat. with the prior version. symbolsList.add(text); sid++; } } // Collect from passed-in symbols while (symbols.hasNext()) { String text = symbols.next(); // TODO amzn/ion-java#12 What about empty symbols? if (symbolsMap.get(text) == null) { putToMapIfNotThere(symbolsMap, text, sid); symbolsList.add(text); sid++; } } } /** * Transfer symbols from {@code symbolsList} to {@code symbolsMap} that * doesn't already exist in the map. */ private static void transferNonExistingSymbols(List symbolsList, Map symbolsMap) { int sid = 1; for (String text : symbolsList) { assert text == null || text.length() > 0; if (text != null) { putToMapIfNotThere(symbolsMap, text, sid); } sid++; } } //========================================================================== // Public methods //========================================================================== public String getName() { return myName; } public int getVersion() { return myVersion; } public boolean isLocalTable() { return false; } public boolean isSharedTable() { return true; } public boolean isSubstitute() { return false; } public boolean isSystemTable() { return ION.equals(myName); } public boolean isReadOnly() { return true; } public void makeReadOnly() { // No-op } public SymbolTable getSystemSymbolTable() { if (isSystemTable()) return this; return null; // non-system shared table } public String getIonVersionId() { if (isSystemTable()) { int id = getVersion(); if (id != 1) { throw new IonException("unrecognized system version " + "encountered: " + id); } return ION_1_0; } return null; // non-system shared tables aren't tied to an Ion version } public SymbolTable[] getImportedTables() { return null; } public int getImportedMaxId() { return 0; } public int getMaxId() { return mySymbolNames.length; } public SymbolToken intern(String text) { SymbolToken symTok = find(text); if (symTok == null) { throw new ReadOnlyValueException(SymbolTable.class); } return symTok; } public SymbolToken find(String text) { text.getClass(); // fast null check Integer sid = mySymbolsMap.get(text); if (sid != null) { assert sid != UNKNOWN_SYMBOL_ID; int offset = sid - 1; String internedText = mySymbolNames[offset]; assert internedText != null; return new SymbolTokenImpl(internedText, sid); } return null; } public int findSymbol(String name) { Integer sid = mySymbolsMap.get(name); if (sid != null) { return sid; } return UNKNOWN_SYMBOL_ID; } public String findKnownSymbol(int id) { if (id < 0) { throw new IllegalArgumentException("symbol IDs must be >= 0"); } int offset = id - 1; if (id != 0 && offset < mySymbolNames.length) { return mySymbolNames[offset]; } return null; } public Iterator iterateDeclaredSymbolNames() { return Collections .unmodifiableList(Arrays.asList(mySymbolNames)) // unsupported remove() .iterator(); } public void writeTo(IonWriter writer) throws IOException { IonReader reader = new SymbolTableReader(this); writer.writeValues(reader); } }





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