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/* Jackson JSON-processor.
 *
 * Copyright (c) 2007- Tatu Saloranta, [email protected]
 */
package com.fitbur.jackson.core;

import java.io.*;
import java.lang.ref.SoftReference;
import java.net.URL;

import com.fitbur.jackson.core.format.InputAccessor;
import com.fitbur.jackson.core.format.MatchStrength;
import com.fitbur.jackson.core.io.*;
import com.fitbur.jackson.core.json.*;
import com.fitbur.jackson.core.sym.ByteQuadsCanonicalizer;
import com.fitbur.jackson.core.sym.CharsToNameCanonicalizer;
import com.fitbur.jackson.core.util.BufferRecycler;
import com.fitbur.jackson.core.util.DefaultPrettyPrinter;

/**
 * The main factory class of Jackson package, used to configure and
 * construct reader (aka parser, {@link JsonParser})
 * and writer (aka generator, {@link JsonGenerator})
 * instances.
 *

* Factory instances are thread-safe and reusable after configuration * (if any). Typically applications and services use only a single * globally shared factory instance, unless they need differently * configured factories. Factory reuse is important if efficiency matters; * most recycling of expensive construct is done on per-factory basis. *

* Creation of a factory instance is a light-weight operation, * and since there is no need for pluggable alternative implementations * (as there is no "standard" JSON processor API to implement), * the default constructor is used for constructing factory * instances. * * @author Tatu Saloranta */ @SuppressWarnings("resource") public class JsonFactory implements Versioned, java.io.Serializable // since 2.1 (for Android, mostly) { private static final long serialVersionUID = 1; // since 2.6.0 /* /********************************************************** /* Helper types /********************************************************** */ /** * Enumeration that defines all on/off features that can only be * changed for {@link JsonFactory}. */ public enum Feature { // // // Symbol handling (interning etc) /** * Feature that determines whether JSON object field names are * to be canonicalized using {@link String#intern} or not: * if enabled, all field names will be intern()ed (and caller * can count on this being true for all such names); if disabled, * no intern()ing is done. There may still be basic * canonicalization (that is, same String will be used to represent * all identical object property names for a single document). *

* Note: this setting only has effect if * {@link #CANONICALIZE_FIELD_NAMES} is true -- otherwise no * canonicalization of any sort is done. *

* This setting is enabled by default. */ INTERN_FIELD_NAMES(true), /** * Feature that determines whether JSON object field names are * to be canonicalized (details of how canonicalization is done * then further specified by * {@link #INTERN_FIELD_NAMES}). *

* This setting is enabled by default. */ CANONICALIZE_FIELD_NAMES(true), /** * Feature that determines what happens if we encounter a case in symbol * handling where number of hash collisions exceeds a safety threshold * -- which almost certainly means a denial-of-service attack via generated * duplicate hash codes. * If feature is enabled, an {@link IllegalStateException} is * thrown to indicate the suspected denial-of-service attack; if disabled, processing continues but * canonicalization (and thereby intern()ing) is disabled) as protective * measure. *

* This setting is enabled by default. * * @since 2.4 */ FAIL_ON_SYMBOL_HASH_OVERFLOW(true), /** * Feature that determines whether we will use {@link BufferRecycler} with * {@link ThreadLocal} and {@link SoftReference}, for efficient reuse of * underlying input/output buffers. * This usually makes sense on normal J2SE/J2EE server-side processing; * but may not make sense on platforms where {@link SoftReference} handling * is broken (like Android), or if there are retention issues due to * {@link ThreadLocal} (see * Issue #189 * for a possible case) * * @since 2.6 */ USE_THREAD_LOCAL_FOR_BUFFER_RECYCLING(true) ; /** * Whether feature is enabled or disabled by default. */ private final boolean _defaultState; /** * Method that calculates bit set (flags) of all features that * are enabled by default. */ public static int collectDefaults() { int flags = 0; for (Feature f : values()) { if (f.enabledByDefault()) { flags |= f.getMask(); } } return flags; } private Feature(boolean defaultState) { _defaultState = defaultState; } public boolean enabledByDefault() { return _defaultState; } public boolean enabledIn(int flags) { return (flags & getMask()) != 0; } public int getMask() { return (1 << ordinal()); } } /* /********************************************************** /* Constants /********************************************************** */ /** * Name used to identify JSON format * (and returned by {@link #getFormatName()} */ public final static String FORMAT_NAME_JSON = "JSON"; /** * Bitfield (set of flags) of all factory features that are enabled by default. */ protected final static int DEFAULT_FACTORY_FEATURE_FLAGS = JsonFactory.Feature.collectDefaults(); /** * Bitfield (set of flags) of all parser features that are enabled * by default. */ protected final static int DEFAULT_PARSER_FEATURE_FLAGS = JsonParser.Feature.collectDefaults(); /** * Bitfield (set of flags) of all generator features that are enabled * by default. */ protected final static int DEFAULT_GENERATOR_FEATURE_FLAGS = JsonGenerator.Feature.collectDefaults(); private final static SerializableString DEFAULT_ROOT_VALUE_SEPARATOR = DefaultPrettyPrinter.DEFAULT_ROOT_VALUE_SEPARATOR; /* /********************************************************** /* Buffer, symbol table management /********************************************************** */ /** * This ThreadLocal contains a {@link java.lang.ref.SoftReference} * to a {@link BufferRecycler} used to provide a low-cost * buffer recycling between reader and writer instances. */ final protected static ThreadLocal> _recyclerRef = new ThreadLocal>(); /** * Each factory comes equipped with a shared root symbol table. * It should not be linked back to the original blueprint, to * avoid contents from leaking between factories. */ protected final transient CharsToNameCanonicalizer _rootCharSymbols = CharsToNameCanonicalizer.createRoot(); /** * Alternative to the basic symbol table, some stream-based * parsers use different name canonicalization method. *

* TODO: should clean up this; looks messy having 2 alternatives * with not very clear differences. * * @since 2.6.0 */ protected final transient ByteQuadsCanonicalizer _byteSymbolCanonicalizer = ByteQuadsCanonicalizer.createRoot(); /* /********************************************************** /* Configuration /********************************************************** */ /** * Object that implements conversion functionality between * Java objects and JSON content. For base JsonFactory implementation * usually not set by default, but can be explicitly set. * Sub-classes (like @link org.codehaus.jackson.map.MappingJsonFactory} * usually provide an implementation. */ protected ObjectCodec _objectCodec; /** * Currently enabled factory features. */ protected int _factoryFeatures = DEFAULT_FACTORY_FEATURE_FLAGS; /** * Currently enabled parser features. */ protected int _parserFeatures = DEFAULT_PARSER_FEATURE_FLAGS; /** * Currently enabled generator features. */ protected int _generatorFeatures = DEFAULT_GENERATOR_FEATURE_FLAGS; /** * Definition of custom character escapes to use for generators created * by this factory, if any. If null, standard data format specific * escapes are used. */ protected CharacterEscapes _characterEscapes; /** * Optional helper object that may decorate input sources, to do * additional processing on input during parsing. */ protected InputDecorator _inputDecorator; /** * Optional helper object that may decorate output object, to do * additional processing on output during content generation. */ protected OutputDecorator _outputDecorator; /** * Separator used between root-level values, if any; null indicates * "do not add separator". * Default separator is a single space character. * * @since 2.1 */ protected SerializableString _rootValueSeparator = DEFAULT_ROOT_VALUE_SEPARATOR; /* /********************************************************** /* Construction /********************************************************** */ /** * Default constructor used to create factory instances. * Creation of a factory instance is a light-weight operation, * but it is still a good idea to reuse limited number of * factory instances (and quite often just a single instance): * factories are used as context for storing some reused * processing objects (such as symbol tables parsers use) * and this reuse only works within context of a single * factory instance. */ public JsonFactory() { this(null); } public JsonFactory(ObjectCodec oc) { _objectCodec = oc; } /** * Constructor used when copy()ing a factory instance. * * @since 2.2.1 */ protected JsonFactory(JsonFactory src, ObjectCodec codec) { _objectCodec = null; _factoryFeatures = src._factoryFeatures; _parserFeatures = src._parserFeatures; _generatorFeatures = src._generatorFeatures; _characterEscapes = src._characterEscapes; _inputDecorator = src._inputDecorator; _outputDecorator = src._outputDecorator; _rootValueSeparator = src._rootValueSeparator; /* 27-Apr-2013, tatu: How about symbol table; should we try to * reuse shared symbol tables? Could be more efficient that way; * although can slightly add to concurrency overhead. */ } /** * Method for constructing a new {@link JsonFactory} that has * the same settings as this instance, but is otherwise * independent (i.e. nothing is actually shared, symbol tables * are separate). * Note that {@link ObjectCodec} reference is not copied but is * set to null; caller typically needs to set it after calling * this method. Reason for this is that the codec is used for * callbacks, and assumption is that there is strict 1-to-1 * mapping between codec, factory. Caller has to, then, explicitly * set codec after making the copy. * * @since 2.1 */ public JsonFactory copy() { _checkInvalidCopy(JsonFactory.class); // as per above, do clear ObjectCodec return new JsonFactory(this, null); } /** * @since 2.1 * @param exp */ protected void _checkInvalidCopy(Class exp) { if (getClass() != exp) { throw new IllegalStateException("Failed copy(): "+getClass().getName() +" (version: "+version()+") does not override copy(); it has to"); } } /* /********************************************************** /* Serializable overrides /********************************************************** */ /** * Method that we need to override to actually make restoration go * through constructors etc. * Also: must be overridden by sub-classes as well. */ protected Object readResolve() { return new JsonFactory(this, _objectCodec); } /* /********************************************************** /* Capability introspection /********************************************************** */ /** * Introspection method that higher-level functionality may call * to see whether underlying data format requires a stable ordering * of object properties or not. * This is usually used for determining * whether to force a stable ordering (like alphabetic ordering by name) * if no ordering if explicitly specified. *

* Default implementation returns false as JSON does NOT * require stable ordering. Formats that require ordering include positional * textual formats like CSV, and schema-based binary formats * like Avro. * * @since 2.3 */ public boolean requiresPropertyOrdering() { return false; } /** * Introspection method that higher-level functionality may call * to see whether underlying data format can read and write binary * data natively; that is, embeded it as-is without using encodings * such as Base64. *

* Default implementation returns false as JSON does not * support native access: all binary content must use Base64 encoding. * Most binary formats (like Smile and Avro) support native binary content. * * @since 2.3 */ public boolean canHandleBinaryNatively() { return false; } /** * Introspection method that can be used by base factory to check * whether access using char[] is something that actual * parser implementations can take advantage of, over having to * use {@link java.io.Reader}. Sub-types are expected to override * definition; default implementation (suitable for JSON) alleges * that optimization are possible; and thereby is likely to try * to access {@link java.lang.String} content by first copying it into * recyclable intermediate buffer. * * @since 2.4 */ public boolean canUseCharArrays() { return true; } /** * Method for accessing kind of {@link FormatFeature} that a parser * {@link JsonParser} produced by this factory would accept, if any; * null returned if none. * * @since 2.6 */ public Class getFormatReadFeatureType() { return null; } /** * Method for accessing kind of {@link FormatFeature} that a parser * {@link JsonGenerator} produced by this factory would accept, if any; * null returned if none. * * @since 2.6 */ public Class getFormatWriteFeatureType() { return null; } /* /********************************************************** /* Format detection functionality /********************************************************** */ /** * Method that can be used to quickly check whether given schema * is something that parsers and/or generators constructed by this * factory could use. Note that this means possible use, at the level * of data format (i.e. schema is for same data format as parsers and * generators this factory constructs); individual schema instances * may have further usage restrictions. * * @since 2.1 */ public boolean canUseSchema(FormatSchema schema) { String ourFormat = getFormatName(); return (ourFormat != null) && ourFormat.equals(schema.getSchemaType()); } /** * Method that returns short textual id identifying format * this factory supports. *

* Note: sub-classes should override this method; default * implementation will return null for all sub-classes */ public String getFormatName() { /* Somewhat nasty check: since we can't make this abstract * (due to backwards compatibility concerns), need to prevent * format name "leakage" */ if (getClass() == JsonFactory.class) { return FORMAT_NAME_JSON; } return null; } /** * Convenience method for trying to determine whether input via given accessor * is of format type supported by this factory. */ public MatchStrength hasFormat(InputAccessor acc) throws IOException { // since we can't keep this abstract, only implement for "vanilla" instance if (getClass() == JsonFactory.class) { return hasJSONFormat(acc); } return null; } /** * Method that can be called to determine if a custom * {@link ObjectCodec} is needed for binding data parsed * using {@link JsonParser} constructed by this factory * (which typically also implies the same for serialization * with {@link JsonGenerator}). * * @return True if custom codec is needed with parsers and * generators created by this factory; false if a general * {@link ObjectCodec} is enough * * @since 2.1 */ public boolean requiresCustomCodec() { return false; } /** * Helper method that can be called to determine if content accessed * using given accessor seems to be JSON content. */ protected MatchStrength hasJSONFormat(InputAccessor acc) throws IOException { return ByteSourceJsonBootstrapper.hasJSONFormat(acc); } /* /********************************************************** /* Versioned /********************************************************** */ @Override public Version version() { return PackageVersion.VERSION; } /* /********************************************************** /* Configuration, factory features /********************************************************** */ /** * Method for enabling or disabling specified parser feature * (check {@link JsonParser.Feature} for list of features) */ public final JsonFactory configure(JsonFactory.Feature f, boolean state) { return state ? enable(f) : disable(f); } /** * Method for enabling specified parser feature * (check {@link JsonFactory.Feature} for list of features) */ public JsonFactory enable(JsonFactory.Feature f) { _factoryFeatures |= f.getMask(); return this; } /** * Method for disabling specified parser features * (check {@link JsonFactory.Feature} for list of features) */ public JsonFactory disable(JsonFactory.Feature f) { _factoryFeatures &= ~f.getMask(); return this; } /** * Checked whether specified parser feature is enabled. */ public final boolean isEnabled(JsonFactory.Feature f) { return (_factoryFeatures & f.getMask()) != 0; } /* /********************************************************** /* Configuration, parser configuration /********************************************************** */ /** * Method for enabling or disabling specified parser feature * (check {@link JsonParser.Feature} for list of features) */ public final JsonFactory configure(JsonParser.Feature f, boolean state) { return state ? enable(f) : disable(f); } /** * Method for enabling specified parser feature * (check {@link JsonParser.Feature} for list of features) */ public JsonFactory enable(JsonParser.Feature f) { _parserFeatures |= f.getMask(); return this; } /** * Method for disabling specified parser features * (check {@link JsonParser.Feature} for list of features) */ public JsonFactory disable(JsonParser.Feature f) { _parserFeatures &= ~f.getMask(); return this; } /** * Checked whether specified parser feature is enabled. */ public final boolean isEnabled(JsonParser.Feature f) { return (_parserFeatures & f.getMask()) != 0; } /** * Method for getting currently configured input decorator (if any; * there is no default decorator). */ public InputDecorator getInputDecorator() { return _inputDecorator; } /** * Method for overriding currently configured input decorator */ public JsonFactory setInputDecorator(InputDecorator d) { _inputDecorator = d; return this; } /* /********************************************************** /* Configuration, generator settings /********************************************************** */ /** * Method for enabling or disabling specified generator feature * (check {@link JsonGenerator.Feature} for list of features) */ public final JsonFactory configure(JsonGenerator.Feature f, boolean state) { return state ? enable(f) : disable(f); } /** * Method for enabling specified generator features * (check {@link JsonGenerator.Feature} for list of features) */ public JsonFactory enable(JsonGenerator.Feature f) { _generatorFeatures |= f.getMask(); return this; } /** * Method for disabling specified generator feature * (check {@link JsonGenerator.Feature} for list of features) */ public JsonFactory disable(JsonGenerator.Feature f) { _generatorFeatures &= ~f.getMask(); return this; } /** * Check whether specified generator feature is enabled. */ public final boolean isEnabled(JsonGenerator.Feature f) { return (_generatorFeatures & f.getMask()) != 0; } /** * Method for accessing custom escapes factory uses for {@link JsonGenerator}s * it creates. */ public CharacterEscapes getCharacterEscapes() { return _characterEscapes; } /** * Method for defining custom escapes factory uses for {@link JsonGenerator}s * it creates. */ public JsonFactory setCharacterEscapes(CharacterEscapes esc) { _characterEscapes = esc; return this; } /** * Method for getting currently configured output decorator (if any; * there is no default decorator). */ public OutputDecorator getOutputDecorator() { return _outputDecorator; } /** * Method for overriding currently configured output decorator */ public JsonFactory setOutputDecorator(OutputDecorator d) { _outputDecorator = d; return this; } /** * Method that allows overriding String used for separating root-level * JSON values (default is single space character) * * @param sep Separator to use, if any; null means that no separator is * automatically added * * @since 2.1 */ public JsonFactory setRootValueSeparator(String sep) { _rootValueSeparator = (sep == null) ? null : new SerializedString(sep); return this; } /** * @since 2.1 */ public String getRootValueSeparator() { return (_rootValueSeparator == null) ? null : _rootValueSeparator.getValue(); } /* /********************************************************** /* Configuration, other /********************************************************** */ /** * Method for associating a {@link ObjectCodec} (typically * a com.fitbur.jackson.databind.ObjectMapper) * with this factory (and more importantly, parsers and generators * it constructs). This is needed to use data-binding methods * of {@link JsonParser} and {@link JsonGenerator} instances. */ public JsonFactory setCodec(ObjectCodec oc) { _objectCodec = oc; return this; } public ObjectCodec getCodec() { return _objectCodec; } /* /********************************************************** /* Parser factories (new ones, as per [Issue-25]) /********************************************************** */ /** * Method for constructing JSON parser instance to parse * contents of specified file. * *

* Encoding is auto-detected from contents according to JSON * specification recommended mechanism. Json specification * supports only UTF-8, UTF-16 and UTF-32 as valid encodings, * so auto-detection implemented only for this charsets. * For other charsets use {@link #createParser(java.io.Reader)}. * *

* Underlying input stream (needed for reading contents) * will be owned (and managed, i.e. closed as need be) by * the parser, since caller has no access to it. * * @param f File that contains JSON content to parse * * @since 2.1 */ public JsonParser createParser(File f) throws IOException, JsonParseException { // true, since we create InputStream from File IOContext ctxt = _createContext(f, true); InputStream in = new FileInputStream(f); return _createParser(_decorate(in, ctxt), ctxt); } /** * Method for constructing JSON parser instance to parse * contents of resource reference by given URL. * *

* Encoding is auto-detected from contents according to JSON * specification recommended mechanism. Json specification * supports only UTF-8, UTF-16 and UTF-32 as valid encodings, * so auto-detection implemented only for this charsets. * For other charsets use {@link #createParser(java.io.Reader)}. * *

* Underlying input stream (needed for reading contents) * will be owned (and managed, i.e. closed as need be) by * the parser, since caller has no access to it. * * @param url URL pointing to resource that contains JSON content to parse * * @since 2.1 */ public JsonParser createParser(URL url) throws IOException, JsonParseException { // true, since we create InputStream from URL IOContext ctxt = _createContext(url, true); InputStream in = _optimizedStreamFromURL(url); return _createParser(_decorate(in, ctxt), ctxt); } /** * Method for constructing JSON parser instance to parse * the contents accessed via specified input stream. *

* The input stream will not be owned by * the parser, it will still be managed (i.e. closed if * end-of-stream is reacher, or parser close method called) * if (and only if) {@link com.fitbur.jackson.core.JsonParser.Feature#AUTO_CLOSE_SOURCE} * is enabled. *

* * Note: no encoding argument is taken since it can always be * auto-detected as suggested by JSON RFC. Json specification * supports only UTF-8, UTF-16 and UTF-32 as valid encodings, * so auto-detection implemented only for this charsets. * For other charsets use {@link #createParser(java.io.Reader)}. * * @param in InputStream to use for reading JSON content to parse * * @since 2.1 */ public JsonParser createParser(InputStream in) throws IOException, JsonParseException { IOContext ctxt = _createContext(in, false); return _createParser(_decorate(in, ctxt), ctxt); } /** * Method for constructing parser for parsing * the contents accessed via specified Reader.

* The read stream will not be owned by * the parser, it will still be managed (i.e. closed if * end-of-stream is reacher, or parser close method called) * if (and only if) {@link com.fitbur.jackson.core.JsonParser.Feature#AUTO_CLOSE_SOURCE} * is enabled. * * @param r Reader to use for reading JSON content to parse * * @since 2.1 */ public JsonParser createParser(Reader r) throws IOException, JsonParseException { // false -> we do NOT own Reader (did not create it) IOContext ctxt = _createContext(r, false); return _createParser(_decorate(r, ctxt), ctxt); } /** * Method for constructing parser for parsing * the contents of given byte array. * * @since 2.1 */ public JsonParser createParser(byte[] data) throws IOException, JsonParseException { IOContext ctxt = _createContext(data, true); if (_inputDecorator != null) { InputStream in = _inputDecorator.decorate(ctxt, data, 0, data.length); if (in != null) { return _createParser(in, ctxt); } } return _createParser(data, 0, data.length, ctxt); } /** * Method for constructing parser for parsing * the contents of given byte array. * * @param data Buffer that contains data to parse * @param offset Offset of the first data byte within buffer * @param len Length of contents to parse within buffer * * @since 2.1 */ public JsonParser createParser(byte[] data, int offset, int len) throws IOException, JsonParseException { IOContext ctxt = _createContext(data, true); // [JACKSON-512]: allow wrapping with InputDecorator if (_inputDecorator != null) { InputStream in = _inputDecorator.decorate(ctxt, data, offset, len); if (in != null) { return _createParser(in, ctxt); } } return _createParser(data, offset, len, ctxt); } /** * Method for constructing parser for parsing * contents of given String. * * @since 2.1 */ public JsonParser createParser(String content) throws IOException, JsonParseException { final int strLen = content.length(); // Actually, let's use this for medium-sized content, up to 64kB chunk (32kb char) if (_inputDecorator != null || strLen > 0x8000 || !canUseCharArrays()) { // easier to just wrap in a Reader than extend InputDecorator; or, if content // is too long for us to copy it over return createParser(new StringReader(content)); } IOContext ctxt = _createContext(content, true); char[] buf = ctxt.allocTokenBuffer(strLen); content.getChars(0, strLen, buf, 0); return _createParser(buf, 0, strLen, ctxt, true); } /** * Method for constructing parser for parsing * contents of given char array. * * @since 2.4 */ public JsonParser createParser(char[] content) throws IOException { return createParser(content, 0, content.length); } /** * Method for constructing parser for parsing contents of given char array. * * @since 2.4 */ public JsonParser createParser(char[] content, int offset, int len) throws IOException { if (_inputDecorator != null) { // easier to just wrap in a Reader than extend InputDecorator return createParser(new CharArrayReader(content, offset, len)); } return _createParser(content, offset, len, _createContext(content, true), // important: buffer is NOT recyclable, as it's from caller false); } /* /********************************************************** /* Parser factories (old ones, pre-2.2) /********************************************************** */ /** * Method for constructing JSON parser instance to parse * contents of specified file. *

* Encoding is auto-detected from contents according to JSON * specification recommended mechanism. Json specification * supports only UTF-8, UTF-16 and UTF-32 as valid encodings, * so auto-detection implemented only for this charsets. * For other charsets use {@link #createParser(java.io.Reader)}. * *

* Underlying input stream (needed for reading contents) * will be owned (and managed, i.e. closed as need be) by * the parser, since caller has no access to it. * * @param f File that contains JSON content to parse * * @deprecated Since 2.2, use {@link #createParser(File)} instead. */ @Deprecated public JsonParser createJsonParser(File f) throws IOException, JsonParseException { return createParser(f); } /** * Method for constructing JSON parser instance to parse * contents of resource reference by given URL. * *

* Encoding is auto-detected from contents according to JSON * specification recommended mechanism. Json specification * supports only UTF-8, UTF-16 and UTF-32 as valid encodings, * so auto-detection implemented only for this charsets. * For other charsets use {@link #createParser(java.io.Reader)}. * *

* Underlying input stream (needed for reading contents) * will be owned (and managed, i.e. closed as need be) by * the parser, since caller has no access to it. * * @param url URL pointing to resource that contains JSON content to parse * * @deprecated Since 2.2, use {@link #createParser(URL)} instead. */ @Deprecated public JsonParser createJsonParser(URL url) throws IOException, JsonParseException { return createParser(url); } /** * Method for constructing JSON parser instance to parse * the contents accessed via specified input stream. *

* The input stream will not be owned by * the parser, it will still be managed (i.e. closed if * end-of-stream is reacher, or parser close method called) * if (and only if) {@link com.fitbur.jackson.core.JsonParser.Feature#AUTO_CLOSE_SOURCE} * is enabled. *

* * Note: no encoding argument is taken since it can always be * auto-detected as suggested by JSON RFC. Json specification * supports only UTF-8, UTF-16 and UTF-32 as valid encodings, * so auto-detection implemented only for this charsets. * For other charsets use {@link #createParser(java.io.Reader)}. * * @param in InputStream to use for reading JSON content to parse * * @deprecated Since 2.2, use {@link #createParser(InputStream)} instead. */ @Deprecated public JsonParser createJsonParser(InputStream in) throws IOException, JsonParseException { return createParser(in); } /** * Method for constructing parser for parsing * the contents accessed via specified Reader.

* The read stream will not be owned by * the parser, it will still be managed (i.e. closed if * end-of-stream is reacher, or parser close method called) * if (and only if) {@link com.fitbur.jackson.core.JsonParser.Feature#AUTO_CLOSE_SOURCE} * is enabled. * * @param r Reader to use for reading JSON content to parse * * @deprecated Since 2.2, use {@link #createParser(Reader)} instead. */ @Deprecated public JsonParser createJsonParser(Reader r) throws IOException, JsonParseException { return createParser(r); } /** * Method for constructing parser for parsing the contents of given byte array. * * @deprecated Since 2.2, use {@link #createParser(byte[])} instead. */ @Deprecated public JsonParser createJsonParser(byte[] data) throws IOException, JsonParseException { return createParser(data); } /** * Method for constructing parser for parsing * the contents of given byte array. * * @param data Buffer that contains data to parse * @param offset Offset of the first data byte within buffer * @param len Length of contents to parse within buffer * * @deprecated Since 2.2, use {@link #createParser(byte[],int,int)} instead. */ @Deprecated public JsonParser createJsonParser(byte[] data, int offset, int len) throws IOException, JsonParseException { return createParser(data, offset, len); } /** * Method for constructing parser for parsing * contents of given String. * * @deprecated Since 2.2, use {@link #createParser(String)} instead. */ @Deprecated public JsonParser createJsonParser(String content) throws IOException, JsonParseException { return createParser(content); } /* /********************************************************** /* Generator factories, new (as per [Issue-25] /********************************************************** */ /** * Method for constructing JSON generator for writing JSON content * using specified output stream. * Encoding to use must be specified, and needs to be one of available * types (as per JSON specification). *

* Underlying stream is NOT owned by the generator constructed, * so that generator will NOT close the output stream when * {@link JsonGenerator#close} is called (unless auto-closing * feature, * {@link com.fitbur.jackson.core.JsonGenerator.Feature#AUTO_CLOSE_TARGET} * is enabled). * Using application needs to close it explicitly if this is the case. *

* Note: there are formats that use fixed encoding (like most binary data formats) * and that ignore passed in encoding. * * @param out OutputStream to use for writing JSON content * @param enc Character encoding to use * * @since 2.1 */ public JsonGenerator createGenerator(OutputStream out, JsonEncoding enc) throws IOException { // false -> we won't manage the stream unless explicitly directed to IOContext ctxt = _createContext(out, false); ctxt.setEncoding(enc); if (enc == JsonEncoding.UTF8) { return _createUTF8Generator(_decorate(out, ctxt), ctxt); } Writer w = _createWriter(out, enc, ctxt); return _createGenerator(_decorate(w, ctxt), ctxt); } /** * Convenience method for constructing generator that uses default * encoding of the format (UTF-8 for JSON and most other data formats). *

* Note: there are formats that use fixed encoding (like most binary data formats). * * @since 2.1 */ public JsonGenerator createGenerator(OutputStream out) throws IOException { return createGenerator(out, JsonEncoding.UTF8); } /** * Method for constructing JSON generator for writing JSON content * using specified Writer. *

* Underlying stream is NOT owned by the generator constructed, * so that generator will NOT close the Reader when * {@link JsonGenerator#close} is called (unless auto-closing * feature, * {@link com.fitbur.jackson.core.JsonGenerator.Feature#AUTO_CLOSE_TARGET} is enabled). * Using application needs to close it explicitly. * * @since 2.1 * * @param w Writer to use for writing JSON content */ public JsonGenerator createGenerator(Writer w) throws IOException { IOContext ctxt = _createContext(w, false); return _createGenerator(_decorate(w, ctxt), ctxt); } /** * Method for constructing JSON generator for writing JSON content * to specified file, overwriting contents it might have (or creating * it if such file does not yet exist). * Encoding to use must be specified, and needs to be one of available * types (as per JSON specification). *

* Underlying stream is owned by the generator constructed, * i.e. generator will handle closing of file when * {@link JsonGenerator#close} is called. * * @param f File to write contents to * @param enc Character encoding to use * * @since 2.1 */ public JsonGenerator createGenerator(File f, JsonEncoding enc) throws IOException { OutputStream out = new FileOutputStream(f); // true -> yes, we have to manage the stream since we created it IOContext ctxt = _createContext(out, true); ctxt.setEncoding(enc); if (enc == JsonEncoding.UTF8) { return _createUTF8Generator(_decorate(out, ctxt), ctxt); } Writer w = _createWriter(out, enc, ctxt); return _createGenerator(_decorate(w, ctxt), ctxt); } /* /********************************************************** /* Generator factories, old (pre-2.2) /********************************************************** */ /** * Method for constructing JSON generator for writing JSON content * using specified output stream. * Encoding to use must be specified, and needs to be one of available * types (as per JSON specification). *

* Underlying stream is NOT owned by the generator constructed, * so that generator will NOT close the output stream when * {@link JsonGenerator#close} is called (unless auto-closing * feature, * {@link com.fitbur.jackson.core.JsonGenerator.Feature#AUTO_CLOSE_TARGET} * is enabled). * Using application needs to close it explicitly if this is the case. *

* Note: there are formats that use fixed encoding (like most binary data formats) * and that ignore passed in encoding. * * @param out OutputStream to use for writing JSON content * @param enc Character encoding to use * * @deprecated Since 2.2, use {@link #createGenerator(OutputStream, JsonEncoding)} instead. */ @Deprecated public JsonGenerator createJsonGenerator(OutputStream out, JsonEncoding enc) throws IOException { return createGenerator(out, enc); } /** * Method for constructing JSON generator for writing JSON content * using specified Writer. *

* Underlying stream is NOT owned by the generator constructed, * so that generator will NOT close the Reader when * {@link JsonGenerator#close} is called (unless auto-closing * feature, * {@link com.fitbur.jackson.core.JsonGenerator.Feature#AUTO_CLOSE_TARGET} is enabled). * Using application needs to close it explicitly. * * @param out Writer to use for writing JSON content * * @deprecated Since 2.2, use {@link #createGenerator(Writer)} instead. */ @Deprecated public JsonGenerator createJsonGenerator(Writer out) throws IOException { return createGenerator(out); } /** * Convenience method for constructing generator that uses default * encoding of the format (UTF-8 for JSON and most other data formats). *

* Note: there are formats that use fixed encoding (like most binary data formats). * * @deprecated Since 2.2, use {@link #createGenerator(OutputStream)} instead. */ @Deprecated public JsonGenerator createJsonGenerator(OutputStream out) throws IOException { return createGenerator(out, JsonEncoding.UTF8); } /* /********************************************************** /* Factory methods used by factory for creating parser instances, /* overridable by sub-classes /********************************************************** */ /** * Overridable factory method that actually instantiates desired parser * given {@link InputStream} and context object. *

* This method is specifically designed to remain * compatible between minor versions so that sub-classes can count * on it being called as expected. That is, it is part of official * interface from sub-class perspective, although not a public * method available to users of factory implementations. * * @since 2.1 */ protected JsonParser _createParser(InputStream in, IOContext ctxt) throws IOException { // As per [JACKSON-259], may want to fully disable canonicalization: return new ByteSourceJsonBootstrapper(ctxt, in).constructParser(_parserFeatures, _objectCodec, _byteSymbolCanonicalizer, _rootCharSymbols, _factoryFeatures); } /** * Overridable factory method that actually instantiates parser * using given {@link Reader} object for reading content. *

* This method is specifically designed to remain * compatible between minor versions so that sub-classes can count * on it being called as expected. That is, it is part of official * interface from sub-class perspective, although not a public * method available to users of factory implementations. * * @since 2.1 */ protected JsonParser _createParser(Reader r, IOContext ctxt) throws IOException { return new ReaderBasedJsonParser(ctxt, _parserFeatures, r, _objectCodec, _rootCharSymbols.makeChild(_factoryFeatures)); } /** * Overridable factory method that actually instantiates parser * using given char[] object for accessing content. * * @since 2.4 */ protected JsonParser _createParser(char[] data, int offset, int len, IOContext ctxt, boolean recyclable) throws IOException { return new ReaderBasedJsonParser(ctxt, _parserFeatures, null, _objectCodec, _rootCharSymbols.makeChild(_factoryFeatures), data, offset, offset+len, recyclable); } /** * Overridable factory method that actually instantiates parser * using given {@link Reader} object for reading content * passed as raw byte array. *

* This method is specifically designed to remain * compatible between minor versions so that sub-classes can count * on it being called as expected. That is, it is part of official * interface from sub-class perspective, although not a public * method available to users of factory implementations. */ protected JsonParser _createParser(byte[] data, int offset, int len, IOContext ctxt) throws IOException { return new ByteSourceJsonBootstrapper(ctxt, data, offset, len).constructParser(_parserFeatures, _objectCodec, _byteSymbolCanonicalizer, _rootCharSymbols, _factoryFeatures); } /* /********************************************************** /* Factory methods used by factory for creating generator instances, /* overridable by sub-classes /********************************************************** */ /** * Overridable factory method that actually instantiates generator for * given {@link Writer} and context object. *

* This method is specifically designed to remain * compatible between minor versions so that sub-classes can count * on it being called as expected. That is, it is part of official * interface from sub-class perspective, although not a public * method available to users of factory implementations. */ protected JsonGenerator _createGenerator(Writer out, IOContext ctxt) throws IOException { WriterBasedJsonGenerator gen = new WriterBasedJsonGenerator(ctxt, _generatorFeatures, _objectCodec, out); if (_characterEscapes != null) { gen.setCharacterEscapes(_characterEscapes); } SerializableString rootSep = _rootValueSeparator; if (rootSep != DEFAULT_ROOT_VALUE_SEPARATOR) { gen.setRootValueSeparator(rootSep); } return gen; } /** * Overridable factory method that actually instantiates generator for * given {@link OutputStream} and context object, using UTF-8 encoding. *

* This method is specifically designed to remain * compatible between minor versions so that sub-classes can count * on it being called as expected. That is, it is part of official * interface from sub-class perspective, although not a public * method available to users of factory implementations. */ protected JsonGenerator _createUTF8Generator(OutputStream out, IOContext ctxt) throws IOException { UTF8JsonGenerator gen = new UTF8JsonGenerator(ctxt, _generatorFeatures, _objectCodec, out); if (_characterEscapes != null) { gen.setCharacterEscapes(_characterEscapes); } SerializableString rootSep = _rootValueSeparator; if (rootSep != DEFAULT_ROOT_VALUE_SEPARATOR) { gen.setRootValueSeparator(rootSep); } return gen; } protected Writer _createWriter(OutputStream out, JsonEncoding enc, IOContext ctxt) throws IOException { // note: this should not get called any more (caller checks, dispatches) if (enc == JsonEncoding.UTF8) { // We have optimized writer for UTF-8 return new UTF8Writer(ctxt, out); } // not optimal, but should do unless we really care about UTF-16/32 encoding speed return new OutputStreamWriter(out, enc.getJavaName()); } /* /********************************************************** /* Internal factory methods, decorator handling /********************************************************** */ /** * @since 2.4 */ protected final InputStream _decorate(InputStream in, IOContext ctxt) throws IOException { if (_inputDecorator != null) { InputStream in2 = _inputDecorator.decorate(ctxt, in); if (in2 != null) { return in2; } } return in; } /** * @since 2.4 */ protected final Reader _decorate(Reader in, IOContext ctxt) throws IOException { if (_inputDecorator != null) { Reader in2 = _inputDecorator.decorate(ctxt, in); if (in2 != null) { return in2; } } return in; } /** * @since 2.4 */ protected final OutputStream _decorate(OutputStream out, IOContext ctxt) throws IOException { if (_outputDecorator != null) { OutputStream out2 = _outputDecorator.decorate(ctxt, out); if (out2 != null) { return out2; } } return out; } /** * @since 2.4 */ protected final Writer _decorate(Writer out, IOContext ctxt) throws IOException { if (_outputDecorator != null) { Writer out2 = _outputDecorator.decorate(ctxt, out); if (out2 != null) { return out2; } } return out; } /* /********************************************************** /* Internal factory methods, other /********************************************************** */ /** * Method used by factory to create buffer recycler instances * for parsers and generators. *

* Note: only public to give access for ObjectMapper */ public BufferRecycler _getBufferRecycler() { BufferRecycler br; /* 23-Apr-2015, tatu: Let's allow disabling of buffer recycling * scheme, for cases where it is considered harmful (possibly * on Android, for example) */ if (isEnabled(Feature.USE_THREAD_LOCAL_FOR_BUFFER_RECYCLING)) { SoftReference ref = _recyclerRef.get(); br = (ref == null) ? null : ref.get(); if (br == null) { br = new BufferRecycler(); _recyclerRef.set(new SoftReference(br)); } } else { br = new BufferRecycler(); } return br; } /** * Overridable factory method that actually instantiates desired * context object. */ protected IOContext _createContext(Object srcRef, boolean resourceManaged) { return new IOContext(_getBufferRecycler(), srcRef, resourceManaged); } /** * Helper methods used for constructing an optimal stream for * parsers to use, when input is to be read from an URL. * This helps when reading file content via URL. */ protected InputStream _optimizedStreamFromURL(URL url) throws IOException { if ("file".equals(url.getProtocol())) { /* Can not do this if the path refers * to a network drive on windows. This fixes the problem; * might not be needed on all platforms (NFS?), but should not * matter a lot: performance penalty of extra wrapping is more * relevant when accessing local file system. */ String host = url.getHost(); if (host == null || host.length() == 0) { // [Issue#48]: Let's try to avoid probs with URL encoded stuff String path = url.getPath(); if (path.indexOf('%') < 0) { return new FileInputStream(url.getPath()); } // otherwise, let's fall through and let URL decoder do its magic } } return url.openStream(); } }





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