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/*
 * Copyright 2007-2016 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.IMPORTS;
import static software.amazon.ion.SystemSymbols.IMPORTS_SID;
import static software.amazon.ion.SystemSymbols.ION;
import static software.amazon.ion.SystemSymbols.ION_SYMBOL_TABLE;
import static software.amazon.ion.SystemSymbols.MAX_ID_SID;
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.copyOf;
import static software.amazon.ion.impl.PrivateUtils.getSidForSymbolTableField;
import static software.amazon.ion.impl.PrivateUtils.safeEquals;

import java.io.IOException;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.NoSuchElementException;
import software.amazon.ion.IonCatalog;
import software.amazon.ion.IonException;
import software.amazon.ion.IonReader;
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.util.IonTextUtils;

/**
 * A local symbol table.
 * 

* Instances of this class are safe for use by multiple threads. */ class LocalSymbolTable implements SymbolTable { static class Factory implements PrivateLocalSymbolTableFactory { private Factory(){} // Should be accessed through the singleton @Override public SymbolTable newLocalSymtab(IonCatalog catalog, IonReader reader, boolean alreadyInStruct) { List symbolsList = new ArrayList(); LocalSymbolTableImports imports = readLocalSymbolTable(reader, catalog, alreadyInStruct, symbolsList); return new LocalSymbolTable(imports, symbolsList); } @Override public SymbolTable newLocalSymtab(SymbolTable defaultSystemSymtab, SymbolTable... imports) { LocalSymbolTableImports unifiedSymtabImports = new LocalSymbolTableImports(defaultSystemSymtab, imports); return new LocalSymbolTable(unifiedSymtabImports, null /* local symbols */); } } static final Factory DEFAULT_LST_FACTORY = new Factory(); /** * The initial length of {@link #mySymbolNames}. */ private static final int DEFAULT_CAPACITY = 16; /** * The system and shared symtabs imported by this symtab. Never null. *

* Note: this member field is immutable and assigned only during * construction, hence no synchronization is needed for its method calls. */ private final LocalSymbolTableImports myImportsList; /** * Map of symbol names to symbol ids of local symbols that are not in * imports. */ private final Map mySymbolsMap; /** * Whether this symbol table is read only, and thus, immutable. */ private boolean isReadOnly; /** * The local symbol names declared in this symtab; never null. * The sid of the first element is {@link #myFirstLocalSid}. * Only the first {@link #mySymbolsCount} elements are valid. */ String[] mySymbolNames; /** * This is the number of symbols defined in this symbol table * locally, that is not imported from some other table. */ int mySymbolsCount; /** * The sid of the first local symbol, which is stored at * {@link #mySymbolNames}[0]. */ final int myFirstLocalSid; //========================================================================== // Private constructor(s) and static factory methods //========================================================================== private void buildSymbolsMap() { int sid = myFirstLocalSid; for (int i = 0; i < mySymbolNames.length; i++, sid++) { String symbolText = mySymbolNames[i]; if (symbolText != null) { putToMapIfNotThere(mySymbolsMap, symbolText, sid); } } } /** * @param imports never null * @param symbolsList may be null or empty */ protected LocalSymbolTable(LocalSymbolTableImports imports, List symbolsList) { if (symbolsList == null || symbolsList.isEmpty()) { mySymbolsCount = 0; mySymbolNames = PrivateUtils.EMPTY_STRING_ARRAY; } else { mySymbolsCount = symbolsList.size(); mySymbolNames = symbolsList.toArray(new String[mySymbolsCount]); } myImportsList = imports; myFirstLocalSid = myImportsList.getMaxId() + 1; // Copy locally declared symbols to mySymbolsMap mySymbolsMap = new HashMap(); buildSymbolsMap(); } /** * Copy-constructor, performs defensive copying of member fields where * necessary. The returned instance is mutable. */ protected LocalSymbolTable(LocalSymbolTable other, int maxId) { isReadOnly = false; myFirstLocalSid = other.myFirstLocalSid; myImportsList = other.myImportsList; mySymbolsCount = maxId - myImportsList.getMaxId(); mySymbolNames = copyOf(other.mySymbolNames, mySymbolsCount); // Copy locally declared symbols to mySymbolsMap if (maxId == other.getMaxId()) { // Shallow copy mySymbolsMap = new HashMap(other.mySymbolsMap); } else { mySymbolsMap = new HashMap(mySymbolsCount); buildSymbolsMap(); } } protected static LocalSymbolTableImports readLocalSymbolTable(IonReader reader, IonCatalog catalog, boolean isOnStruct, List symbolsListOut) { if (! isOnStruct) { reader.next(); } assert reader.getType() == IonType.STRUCT : "invalid symbol table image passed in reader " + reader.getType() + " encountered when a struct was expected"; assert ION_SYMBOL_TABLE.equals(reader.getTypeAnnotations()[0]) : "local symbol tables must be annotated by " + ION_SYMBOL_TABLE; reader.stepIn(); List importsList = new ArrayList(); importsList.add(reader.getSymbolTable().getSystemSymbolTable()); IonType fieldType; boolean foundImportList = false; boolean foundLocalSymbolList = false; 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#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 SYMBOLS_SID: { // As per the Spec, other field types are treated as // empty lists if(foundLocalSymbolList){ throw new IonException("Multiple symbol fields found within a single local symbol table."); } foundLocalSymbolList = true; if (fieldType == IonType.LIST) { reader.stepIn(); IonType type; while ((type = reader.next()) != null) { final String text; if (type == IonType.STRING) { text = reader.stringValue(); } else { text = null; } symbolsListOut.add(text); } reader.stepOut(); } break; } case IMPORTS_SID: { if(foundImportList){ throw new IonException("Multiple imports fields found within a single local symbol table."); } foundImportList = true; if (fieldType == IonType.LIST) { prepImportsList(importsList, reader, catalog); } else if (fieldType == IonType.SYMBOL) { // trying to import the current table if(reader.getSymbolTable().isLocalTable() && ION_SYMBOL_TABLE.equals(reader.stringValue())) { importsList.add(reader.getSymbolTable()); } } break; } default: { // As per the Spec, any other field is ignored break; } } } reader.stepOut(); return new LocalSymbolTableImports(importsList); } synchronized LocalSymbolTable makeCopy() { return new LocalSymbolTable(this, getMaxId()); } synchronized LocalSymbolTable makeCopy(int maxId) { return new LocalSymbolTable(this, maxId); } public boolean isLocalTable() { return true; } public boolean isSharedTable() { return false; } public boolean isSystemTable() { return false; } public boolean isSubstitute() { return false; } public synchronized boolean isReadOnly() { return isReadOnly; } public synchronized void makeReadOnly() { isReadOnly = true; } public int getImportedMaxId() { return myImportsList.getMaxId(); } public synchronized int getMaxId() { int maxid = mySymbolsCount + myImportsList.getMaxId(); return maxid; } public int getVersion() { return 0; } public String getName() { return null; } public String getIonVersionId() { SymbolTable system_table = myImportsList.getSystemSymbolTable(); return system_table.getIonVersionId(); } public synchronized Iterator iterateDeclaredSymbolNames() { return new SymbolIterator(mySymbolNames, mySymbolsCount); } public String findKnownSymbol(int id) { String name = null; if (id < 0) { String message = "symbol IDs must be >= 0"; throw new IllegalArgumentException(message); } else if (id < myFirstLocalSid) { name = myImportsList.findKnownSymbol(id); } else { int offset = id - myFirstLocalSid; String[] names; synchronized (this) { names = mySymbolNames; } if (offset < names.length) { name = names[offset]; } } return name; } public int findSymbol(String name) { // Look in system then imports int sid = myImportsList.findSymbol(name); // Look in local symbols if (sid == UNKNOWN_SYMBOL_ID) { sid = findLocalSymbol(name); } return sid; } private int findLocalSymbol(String name) { Integer isid; synchronized (this) { isid = mySymbolsMap.get(name); } if (isid != null) { assert isid != UNKNOWN_SYMBOL_ID; return isid; } return UNKNOWN_SYMBOL_ID; } public synchronized SymbolToken intern(String text) { SymbolToken is = find(text); if (is == null) { validateSymbol(text); int sid = putSymbol(text); is = new SymbolTokenImpl(text, sid); } return is; } public SymbolToken find(String text) { text.getClass(); // fast null check // Look in system then imports SymbolToken symTok = myImportsList.find(text); // Look in local symbols if (symTok == null) { Integer sid; String[] names; synchronized (this) { sid = mySymbolsMap.get(text); names = mySymbolNames; } if (sid != null) { int offset = sid - myFirstLocalSid; String internedText = names[offset]; assert internedText != null; symTok = new SymbolTokenImpl(internedText, sid); } } return symTok; } private static final void validateSymbol(String name) { if (name == null) { throw new IllegalArgumentException("symbols must not be null"); } for (int i = 0; i < name.length(); ++i) { int c = name.charAt(i); if (c >= 0xD800 && c <= 0xDFFF) { if (c >= 0xDC00) { String message = "unpaired trailing surrogate in symbol " + "name at position " + i; throw new IllegalArgumentException(message); } ++i; if (i == name.length()) { String message = "unmatched leading surrogate in symbol " + "name at position " + i; throw new IllegalArgumentException(message); } c = name.charAt(i); if (c < 0xDC00 || c > 0xDFFF) { String message = "unmatched leading surrogate in symbol " + "name at position " + i; throw new IllegalArgumentException(message); } } } } /** * NOT SYNCHRONIZED! Call within constructor or from synch'd method. */ int putSymbol(String symbolName) { if (isReadOnly) { throw new ReadOnlyValueException(SymbolTable.class); } if (mySymbolsCount == mySymbolNames.length) { int newlen = mySymbolsCount * 2; if (newlen < DEFAULT_CAPACITY) { newlen = DEFAULT_CAPACITY; } String[] temp = new String[newlen]; System.arraycopy(mySymbolNames, 0, temp, 0, mySymbolsCount); mySymbolNames = temp; } int sid = -1; if (symbolName != null) { sid = mySymbolsCount + myFirstLocalSid; assert sid == getMaxId() + 1; putToMapIfNotThere(mySymbolsMap, symbolName, sid); } mySymbolNames[mySymbolsCount] = symbolName; mySymbolsCount++; return sid; } private static void putToMapIfNotThere(Map symbolsMap, String text, int sid) { // When there's a duplicate name, don't replace the lower sid. // This pattern avoids double-lookup in the normal happy case // and only requires 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); } } public SymbolTable getSystemSymbolTable() { return myImportsList.getSystemSymbolTable(); } public SymbolTable[] getImportedTables() { return myImportsList.getImportedTables(); } /** * Returns the imported symbol tables without making a copy. *

* Note: Callers must not modify the resulting SymbolTable array! * This will violate the immutability property of this class. * * @return * the imported symtabs, as-is; the first element is a system * symtab, the rest are non-system shared symtabs * * @see #getImportedTables() */ SymbolTable[] getImportedTablesNoCopy() { return myImportsList.getImportedTablesNoCopy(); } public void writeTo(IonWriter writer) throws IOException { IonReader reader = new SymbolTableReader(this); writer.writeValues(reader); } /** * Collects the necessary imports from the reader and catalog, and load * them into the passed-in {@code importsList}. */ private static void prepImportsList(List importsList, IonReader reader, IonCatalog catalog) { assert IMPORTS.equals(reader.getFieldName()); reader.stepIn(); IonType t; while ((t = reader.next()) != null) { if (!reader.isNullValue() && t == IonType.STRUCT) { SymbolTable importedTable = readOneImport(reader, catalog); if (importedTable != null) { importsList.add(importedTable); } } } reader.stepOut(); } /** * Returns a {@link SymbolTable} representation of a single import * declaration from the passed-in reader and catalog. * * @return * symbol table representation of the import; null if the import * declaration is malformed */ private static SymbolTable readOneImport(IonReader ionRep, IonCatalog catalog) { assert (ionRep.getType() == IonType.STRUCT); String name = null; int version = -1; int maxid = -1; ionRep.stepIn(); IonType t; while ((t = ionRep.next()) != null) { if (ionRep.isNullValue()) continue; SymbolToken symTok = ionRep.getFieldNameSymbol(); int field_id = symTok.getSid(); if (field_id == UNKNOWN_SYMBOL_ID) { // this is a user defined reader or a pure DOM // we fall back to text here final String fieldName = ionRep.getFieldName(); field_id = getSidForSymbolTableField(fieldName); } switch(field_id) { case NAME_SID: if (t == IonType.STRING) { name = ionRep.stringValue(); } break; case VERSION_SID: if (t == IonType.INT) { version = ionRep.intValue(); } break; case MAX_ID_SID: if (t == IonType.INT) { maxid = ionRep.intValue(); } break; default: // we just ignore anything else as "open content" break; } } ionRep.stepOut(); // Ignore import clauses with malformed name field. if (name == null || name.length() == 0 || name.equals(ION)) { return null; } if (version < 1) { version = 1; } SymbolTable itab = null; if (catalog != null) { itab = catalog.getTable(name, version); } if (maxid < 0) { if (itab == null || version != itab.getVersion()) { String message = "Import of shared table " + IonTextUtils.printString(name) + " lacks a valid max_id field, but an exact match was not" + " found in the catalog"; if (itab != null) { message += " (found version " + itab.getVersion() + ")"; } // TODO custom exception throw new IonException(message); } // Exact match is found, but max_id is undefined in import // declaration, set max_id to largest sid of shared symtab maxid = itab.getMaxId(); } if (itab == null) { assert maxid >= 0; // Construct substitute table with max_id undefined symbols itab = new SubstituteSymbolTable(name, version, maxid); } else if (itab.getVersion() != version || itab.getMaxId() != maxid) { // A match was found BUT specs are not an exact match // Construct a substitute with correct specs, containing the // original import table that was found itab = new SubstituteSymbolTable(itab, version, maxid); } return itab; } /** * Generate the string representation of a symbol with an unknown id. * @param id must be a value greater than zero. * @return the symbol name, of the form $NNN where NNN is the * integer rendering of id */ public static String unknownSymbolName(int id) { assert id > 0; return "$" + id; } @Override public String toString() { return "(LocalSymbolTable max_id:" + getMaxId() + ')'; } private static final class SymbolIterator implements Iterator { private final String[] mySymbolNames; private final int mySymbolsCount; private int _idx = 0; SymbolIterator(String[] symbolNames, int count) { mySymbolNames = symbolNames; mySymbolsCount = count; } public boolean hasNext() { if (_idx < mySymbolsCount) { return true; } return false; } public String next() { if (_idx < mySymbolsCount) { return mySymbolNames[_idx++]; } throw new NoSuchElementException(); } public void remove() { throw new UnsupportedOperationException(); } } /** * This method, and the context from which it is called, assumes that the * symtabs are not being mutated by another thread. * Therefore it doesn't use synchronization. */ boolean symtabExtends(SymbolTable other) { // Throws ClassCastException if other isn't a local symtab LocalSymbolTable subset = (LocalSymbolTable) other; // Gather snapshots of each LST's data, so we don't // Superset must have same/more known symbols than subset. if (getMaxId() < subset.getMaxId()) return false; // TODO amzn/ion-java#18 Currently, we check imports by their refs. which // might be overly strict; imports which are not the same ref. // but have the same semantic states fails the extension check. if (! myImportsList.equalImports(subset.myImportsList)) return false; int subLocalSymbolCount = subset.mySymbolsCount; // Superset extends subset if subset doesn't have any declared symbols. if (subLocalSymbolCount == 0) return true; // Superset must have same/more declared (local) symbols than subset. if (mySymbolsCount < subLocalSymbolCount) return false; String[] subsetSymbols = subset.mySymbolNames; // Before we go through the expensive iteration from the front, // check the last (largest) declared symbol in subset beforehand if (! safeEquals(mySymbolNames[subLocalSymbolCount- 1], subsetSymbols[subLocalSymbolCount- 1])) { return false; } // Now, we iterate from the first declared symbol, note that the // iteration below is O(n)! for (int i = 0; i < subLocalSymbolCount - 1; i++) { if (! safeEquals(mySymbolNames[i], subsetSymbols[i])) return false; } return true; } }





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