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/*
 * Copyright 2007-2019 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://www.apache.org/licenses/LICENSE-2.0
 *
 * 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 com.amazon.ion.impl;

import static com.amazon.ion.SystemSymbols.ION_SYMBOL_TABLE;

import com.amazon.ion.IonCatalog;
import com.amazon.ion.IonException;
import com.amazon.ion.IonStruct;
import com.amazon.ion.IonType;
import com.amazon.ion.SymbolTable;
import com.amazon.ion.SymbolToken;
import com.amazon.ion.Timestamp;
import com.amazon.ion.ValueFactory;
import java.io.IOException;
import java.math.BigDecimal;
import java.math.BigInteger;

/**
 * 

* This writer handles the symbol table processing and * provides default implementations for the list forms * of the write methods as often the list form is not * susceptible to optimization. *

* *

* This writer has a ({@link #_system_writer}) to which the actual data is * written, but data flows through the {@link #_current_writer} most of the * time. *

* *

* The critical responsibility here is the recognition of IVMs and local symbol * tables. When the user starts writing a local symtab, the stream is diverted * away from the {@link #_system_writer} into a temporary tree writer that * collects the symtab data into an {@link IonStruct} instance. When that * struct is stepped-out, the diversion is stopped and the new * {@link SymbolTable} is installed. *

*/ class IonWriterUser extends _Private_IonWriterBase implements _Private_IonWriter { /** Factory for constructing the DOM of local symtabs. Not null. */ private final ValueFactory _symtab_value_factory; /** Used to make correct local symbol tables. May be null. */ private final IonCatalog _catalog; /** * The underlying system writer that writing the raw format (text, binary, * or ion values). Not null. */ final IonWriterSystem _system_writer; /** * This will be either our {@link #_system_writer} or a symbol table writer * depending on whether we're diverting the user values to a * local symbol table ... or not. * Not null. */ IonWriterSystem _current_writer; /** * While the stream is diverted to collect local symtab data, it is * being written to this instance. * This is null IFF {@link #_current_writer} == {@link #_system_writer}. */ private IonStruct _symbol_table_value; /** * Base constructor. *

* POSTCONDITION: {@link IonWriterUser#_system_writer} == * {@link #_current_writer} == systemWriter * * @param catalog may be null. * @param symtabValueFactory must not be null. * @param systemWriter must not be null. */ IonWriterUser(IonCatalog catalog, ValueFactory symtabValueFactory, IonWriterSystem systemWriter, boolean requireSymbolValidation) { super(requireSymbolValidation); _symtab_value_factory = symtabValueFactory; _catalog = catalog; assert systemWriter != null; _system_writer = systemWriter; _current_writer = systemWriter; } /** * Constructor for text and binary writers. *

* POSTCONDITION: {@link IonWriterUser#_system_writer} == * {@link #_current_writer} == systemWriter * * @param catalog * may be null * @param symtabValueFactory * must not be null * @param systemWriter * must not be null * @param symtab * must not be null */ IonWriterUser(IonCatalog catalog, ValueFactory symtabValueFactory, IonWriterSystem systemWriter, SymbolTable symtab, boolean requireSymbolValidation) { this(catalog, symtabValueFactory, systemWriter, requireSymbolValidation); SymbolTable defaultSystemSymtab = systemWriter.getDefaultSystemSymtab(); if (symtab.isLocalTable() || symtab != defaultSystemSymtab) { try { setSymbolTable(symtab); } catch (IOException e) { throw new IonException(e); } } assert _system_writer == _current_writer && _system_writer == systemWriter; } //======================================================================== public IonCatalog getCatalog() { return _catalog; } @Override int findAnnotation(String name) { return _current_writer.findAnnotation(name); } @Override public int getDepth() { return _current_writer.getDepth(); } public boolean isInStruct() { return _current_writer.isInStruct(); } public void flush() throws IOException { _current_writer.flush(); } public void close() throws IOException { try { try { if (getDepth() == 0) { assert(_current_writer == _system_writer); finish(); } } finally { _current_writer.close(); } } finally { _system_writer.close(); } } public final void finish() throws IOException { if (symbol_table_being_collected()) { throw new IllegalStateException(ERROR_FINISH_NOT_AT_TOP_LEVEL); } _system_writer.finish(); } //======================================================================== SymbolTable activeSystemSymbolTable() { return getSymbolTable().getSystemSymbolTable(); } private boolean symbol_table_being_collected() { return (_current_writer != _system_writer); } /** *

* Diverts the data stream to a temporary tree writer which collects * local symtab data into an IonStruct from which we'll later construct a * {@link SymbolTable} instance. *

*

* Once the value image of the symbol table is complete (which * happens when the caller steps out of the containing struct) * the diverted stream is abandonded and the symbol table gets constructed. *

*

* If there was a makeSymbolTable(Reader) this copy might be, * at least partially, avoided. *

*/ private void open_local_symbol_table_copy() { assert(! symbol_table_being_collected()); _symbol_table_value = _symtab_value_factory.newEmptyStruct(); SymbolToken[] anns = _system_writer.getTypeAnnotationSymbols(); _system_writer.clearAnnotations(); _symbol_table_value.setTypeAnnotationSymbols(anns); _current_writer = new IonWriterSystemTree(activeSystemSymbolTable(), _catalog, _symbol_table_value, null /* initialIvmHandling */); } /** * Closes the diverted writer since the local symbol table * is complete (i.e. the struct is closed, on {@link #stepOut()}). */ private void close_local_symbol_table_copy() throws IOException { assert(symbol_table_being_collected()); // convert the struct we just wrote with the TreeWriter to a // local symbol table LocalSymbolTableAsStruct.Factory lstFactory = (LocalSymbolTableAsStruct.Factory)((_Private_ValueFactory)_symtab_value_factory).getLstFactory(); SymbolTable symtab = lstFactory.newLocalSymtab(_catalog, _symbol_table_value); _symbol_table_value = null; _current_writer = _system_writer; // now make this symbol table the current symbol table this.setSymbolTable(symtab); } @Override public final void setSymbolTable(SymbolTable symbols) throws IOException { if (symbols == null || _Private_Utils.symtabIsSharedNotSystem(symbols)) { String message = "symbol table must be local or system to be set, or reset"; throw new IllegalArgumentException(message); } if (getDepth() > 0) { String message = "the symbol table cannot be set, or reset, while a container " + "is open"; throw new IllegalStateException(message); } if (symbols.isSystemTable()) { writeIonVersionMarker(symbols); } else { _system_writer.writeLocalSymtab(symbols); } } public final SymbolTable getSymbolTable() { SymbolTable symbols = _system_writer.getSymbolTable(); return symbols; } @Override final String assumeKnownSymbol(int sid) { return _system_writer.assumeKnownSymbol(sid); } //======================================================================== // Field names public final void setFieldName(String name) { _current_writer.setFieldName(name); } public final void setFieldNameSymbol(SymbolToken name) { _current_writer.setFieldNameSymbol(name); } @Override public final boolean isFieldNameSet() { return _current_writer.isFieldNameSet(); } //======================================================================== // Annotations public void addTypeAnnotation(String annotation) { _current_writer.addTypeAnnotation(annotation); } public void setTypeAnnotations(String... annotations) { _current_writer.setTypeAnnotations(annotations); } public void setTypeAnnotationSymbols(SymbolToken... annotations) { _current_writer.setTypeAnnotationSymbols(annotations); } @Override String[] getTypeAnnotations() { return _current_writer.getTypeAnnotations(); } @Override int[] getTypeAnnotationIds() { return _current_writer.getTypeAnnotationIds(); } final SymbolToken[] getTypeAnnotationSymbols() { return _current_writer.getTypeAnnotationSymbols(); } public void stepIn(IonType containerType) throws IOException { // see if it looks like we're starting a local symbol table if (containerType == IonType.STRUCT && _current_writer.getDepth() == 0 && findAnnotation(ION_SYMBOL_TABLE) == 0) { open_local_symbol_table_copy(); } else { // if not we'll just pass the work on to whatever // writer is currently in scope _current_writer.stepIn(containerType); } } public void stepOut() throws IOException { if (symbol_table_being_collected() && _current_writer.getDepth() == 1) { close_local_symbol_table_copy(); } else { _current_writer.stepOut(); } } public void writeBlob(byte[] value, int start, int len) throws IOException { _current_writer.writeBlob(value, start, len); } public void writeBool(boolean value) throws IOException { _current_writer.writeBool(value); } public void writeClob(byte[] value, int start, int len) throws IOException { _current_writer.writeClob(value, start, len); } @Override public void writeDecimal(BigDecimal value) throws IOException { _current_writer.writeDecimal(value); } public void writeFloat(double value) throws IOException { _current_writer.writeFloat(value); } @SuppressWarnings("cast") public void writeInt(int value) throws IOException { _current_writer.writeInt((long)value); } public void writeInt(long value) throws IOException { _current_writer.writeInt(value); } public void writeInt(BigInteger value) throws IOException { _current_writer.writeInt(value); } public void writeNull(IonType type) throws IOException { _current_writer.writeNull(type); } public void writeString(String value) throws IOException { _current_writer.writeString(value); } @Override final void writeSymbol(int symbolId) throws IOException { _current_writer.writeSymbol(symbolId); } public final void writeSymbol(String value) throws IOException { _current_writer.writeSymbol(value); } final void writeIonVersionMarker(SymbolTable systemSymtab) throws IOException { _current_writer.writeIonVersionMarker(systemSymtab); } @Override public final void writeIonVersionMarker() throws IOException { _current_writer.writeIonVersionMarker(); } public void writeTimestamp(Timestamp value) throws IOException { _current_writer.writeTimestamp(value); } }




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