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Data Mapper package is a high-performance data binding package built on Jackson JSON processor

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package org.codehaus.jackson.map;

import java.text.DateFormat;
import java.util.*;

import org.codehaus.jackson.Base64Variant;
import org.codehaus.jackson.Base64Variants;
import org.codehaus.jackson.annotate.*;
import org.codehaus.jackson.map.introspect.AnnotatedClass;
import org.codehaus.jackson.map.introspect.NopAnnotationIntrospector;
import org.codehaus.jackson.map.introspect.VisibilityChecker;
import org.codehaus.jackson.map.jsontype.SubtypeResolver;
import org.codehaus.jackson.map.jsontype.TypeResolverBuilder;
import org.codehaus.jackson.map.jsontype.impl.StdSubtypeResolver;
import org.codehaus.jackson.map.type.ClassKey;
import org.codehaus.jackson.map.util.LinkedNode;
import org.codehaus.jackson.map.util.StdDateFormat;
import org.codehaus.jackson.node.JsonNodeFactory;
import org.codehaus.jackson.type.JavaType;

/**
 * Object that contains baseline configuration for deserialization
 * process. An instance is owned by {@link ObjectMapper}, which makes
 * a copy that is passed during serialization process to
 * {@link DeserializerProvider} and {@link DeserializerFactory}.
 *

* Note: although configuration settings can be changed at any time * (for factories and instances), they are not guaranteed to have * effect if called after constructing relevant mapper or deserializer * instance. This because some objects may be configured, constructed and * cached first time they are needed. */ public class DeserializationConfig implements MapperConfig { /** * Enumeration that defines togglable features that guide * the serialization feature. */ public enum Feature { // // // Introspection configuration /** * Feature that determines whether annotation introspection * is used for configuration; if enabled, configured * {@link AnnotationIntrospector} will be used: if disabled, * no annotations are considered. *

* Feature is enabled by default. * * @since 1.2 */ USE_ANNOTATIONS(true), /** * Feature that determines whether "setter" methods are * automatically detected based on standard Bean naming convention * or not. If yes, then all public one-argument methods that * start with prefix "set" * are considered setters. If disabled, only methods explicitly * annotated are considered setters. *

* Note that this feature has lower precedence than per-class * annotations, and is only used if there isn't more granular * configuration available. *

* Feature is enabled by default. */ AUTO_DETECT_SETTERS(true), /** * Feature that determines whether "creator" methods are * automatically detected by consider public constructors, * and static single argument methods with name "valueOf". * If disabled, only methods explicitly annotated are considered * creator methods (except for the no-arg default constructor which * is always considered a factory method). *

* Note that this feature has lower precedence than per-class * annotations, and is only used if there isn't more granular * configuration available. *

* Feature is enabled by default. */ AUTO_DETECT_CREATORS(true), /** * Feature that determines whether non-static fields are recognized as * properties. * If yes, then all public member fields * are considered as properties. If disabled, only fields explicitly * annotated are considered property fields. *

* Note that this feature has lower precedence than per-class * annotations, and is only used if there isn't more granular * configuration available. *

* Feature is enabled by default. * * @since 1.1 */ AUTO_DETECT_FIELDS(true), /** * Feature that determines whether otherwise regular "getter" * methods (but only ones that handle Collections and Maps, * not getters of other type) * can be used for purpose of getting a reference to a Collection * and Map to modify the property, without requiring a setter * method. * This is similar to how JAXB framework sets Collections and * Maps: no setter is involved, just setter. *

* Note that such getters-as-setters methods have lower * precedence than setters, so they are only used if no * setter is found for the Map/Collection property. *

* Feature is enabled by default. */ USE_GETTERS_AS_SETTERS(true), /** * Feature that determines whether method and field access * modifier settings can be overridden when accessing * properties. If enabled, method * {@link java.lang.reflect.AccessibleObject#setAccessible} * may be called to enable access to otherwise unaccessible * objects. */ CAN_OVERRIDE_ACCESS_MODIFIERS(true), // // // Type conversion configuration /** * Feature that determines whether Json floating point numbers * are to be deserialized into {@link java.math.BigDecimal}s * if only generic type description (either {@link Object} or * {@link Number}, or within untyped {@link java.util.Map} * or {@link java.util.Collection} context) is available. * If enabled such values will be deserialized as {@link java.math.BigDecimal}s; * if disabled, will be deserialized as {@link Double}s. *

* Feature is disabled by default, meaning that "untyped" floating * point numbers will by default be deserialized as {@link Double}s * (choice is for performance reason -- BigDecimals are slower than * Doubles) */ USE_BIG_DECIMAL_FOR_FLOATS(false), /** * Feature that determines whether Json integral (non-floating-point) * numbers are to be deserialized into {@link java.math.BigInteger}s * if only generic type description (either {@link Object} or * {@link Number}, or within untyped {@link java.util.Map} * or {@link java.util.Collection} context) is available. * If enabled such values will be deserialized as * {@link java.math.BigInteger}s; * if disabled, will be deserialized as "smallest" available type, * which is either {@link Integer}, {@link Long} or * {@link java.math.BigInteger}, depending on number of digits. *

* Feature is disabled by default, meaning that "untyped" floating * point numbers will by default be deserialized using whatever * is the most compact integral type, to optimize efficiency. */ USE_BIG_INTEGER_FOR_INTS(false), /** * Feature that determines standard deserialization mechanism used for * Enum values: if enabled, Enums are assumed to have been serialized using * return value of Enum.toString(); * if disabled, return value of Enum.name() is assumed to have been used. * Since pre-1.6 method was to use Enum name, this is the default. *

* Note: this feature should usually have same value * as {@link SerializationConfig.Feature#WRITE_ENUMS_USING_TO_STRING}. *

* For further details, check out [JACKSON-212] * * @since 1.6 */ READ_ENUMS_USING_TO_STRING(false), // // // Problem handling /** * Feature that determines whether encountering of unknown * properties (ones that do not map to a property, and there is * no "any setter" or handler that can handle it) * should result in a failure (by throwing a * {@link JsonMappingException}) or not. * This setting only takes effect after all other handling * methods for unknown properties have been tried, and * property remains unhandled. *

* Feature is enabled by default, meaning that * {@link JsonMappingException} is thrown if an unknown property * is encountered. This is the implicit default prior to * introduction of the feature. * * @since 1.2 */ FAIL_ON_UNKNOWN_PROPERTIES(true), // // // Structural changes /** * Feature that can be enabled to handle "wrapped" values * (see {@link SerializationConfig.Feature#WRAP_ROOT_VALUE} * for details). * If enabled, value being deserialized must be a single-property * JSON Object where the key name matches expected "root name" * (determined using annotation, or if none, fallback which is * the unqualified class name of the expected value) *

* Default setting is false, meaning root value is not wrapped. * * @since 1.3 */ WRAP_ROOT_VALUE(false) ; 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 int getMask() { return (1 << ordinal()); } } /** * Bitfield (set of flags) of all Features that are enabled * by default. */ protected final static int DEFAULT_FEATURE_FLAGS = Feature.collectDefaults(); protected final static DateFormat DEFAULT_DATE_FORMAT = StdDateFormat.instance; /* /********************************************************** /* Configuration settings /********************************************************** */ /** * Introspector used to figure out Bean properties needed for bean serialization * and deserialization. Overridable so that it is possible to change low-level * details of introspection, like adding new annotation types. */ protected ClassIntrospector _classIntrospector; /** * Introspector used for accessing annotation value based configuration. */ protected AnnotationIntrospector _annotationIntrospector; /** * Bit set that contains all enabled features */ protected int _featureFlags = DEFAULT_FEATURE_FLAGS; /** * Linked list that contains all registered problem handlers. * Implementation as front-added linked list allows for sharing * of the list (tail) without copying the list. */ protected LinkedNode _problemHandlers; /** * Custom date format to use for de-serialization. If specified, will be * used instead of {@link org.codehaus.jackson.map.util.StdDateFormat}. *

* Note that the configured format object will be cloned once per * deserialization process (first time it is needed) */ protected DateFormat _dateFormat = DEFAULT_DATE_FORMAT; /** * Mapping that defines how to apply mix-in annotations: key is * the type to received additional annotations, and value is the * type that has annotations to "mix in". *

* Annotations associated with the value classes will be used to * override annotations of the key class, associated with the * same field or method. They can be further masked by sub-classes: * you can think of it as injecting annotations between the target * class and its sub-classes (or interfaces) * * @since 1.2 */ protected HashMap> _mixInAnnotations; /** * Flag used to detect when a copy if mix-in annotations is * needed: set when current copy is shared, cleared when a * fresh copy is made * * @since 1.2 */ protected boolean _mixInAnnotationsShared; /** * Type information handler used for "untyped" values (ones declared * to have type Object.class) * * @since 1.5 */ protected final TypeResolverBuilder _typer; /** * Object used for determining whether specific property elements * (method, constructors, fields) can be auto-detected based on * their visibility (access modifiers). Can be changed to allow * different minimum visibility levels for auto-detection. Note * that this is the global handler; individual types (classes) * can further override active checker used (using * {@link JsonAutoDetect} annotation) * * @since 1.5 */ protected VisibilityChecker _visibilityChecker; /** * Registered concrete subtypes that can be used instead of (or * in addition to) ones declared using annotations. * * @since 1.6 */ protected SubtypeResolver _subtypeResolver; /** * To support on-the-fly class generation for interface and abstract classes * it is possible to register "abstract type resolver". * * @since 1.6 */ protected AbstractTypeResolver _abstractTypeResolver; /** * Factory used for constructing {@link org.codehaus.jackson.JsonNode} instances. * * @since 1.6 */ protected JsonNodeFactory _nodeFactory; /* /********************************************************** /* Life-cycle /********************************************************** */ public DeserializationConfig(ClassIntrospector intr, AnnotationIntrospector annIntr, VisibilityChecker vc, SubtypeResolver subtypeResolver) { _classIntrospector = intr; _annotationIntrospector = annIntr; _typer = null; _visibilityChecker = vc; _subtypeResolver = subtypeResolver; _nodeFactory = JsonNodeFactory.instance; } protected DeserializationConfig(DeserializationConfig src, HashMap> mixins, TypeResolverBuilder typer, VisibilityChecker vc, SubtypeResolver subtypeResolver) { _classIntrospector = src._classIntrospector; _annotationIntrospector = src._annotationIntrospector; _abstractTypeResolver = src._abstractTypeResolver; _featureFlags = src._featureFlags; _problemHandlers = src._problemHandlers; _dateFormat = src._dateFormat; _nodeFactory = src._nodeFactory; _mixInAnnotations = mixins; _typer = typer; _visibilityChecker = vc; _subtypeResolver = subtypeResolver; } /* /********************************************************** /* Configuration: on/off features /********************************************************** */ /** * Method for enabling specified feature. */ public void enable(Feature f) { _featureFlags |= f.getMask(); } /** * Method for disabling specified feature. */ public void disable(Feature f) { _featureFlags &= ~f.getMask(); } /** * Method for enabling or disabling specified feature. */ public void set(Feature f, boolean state) { if (state) { enable(f); } else { disable(f); } } /** * Method for checking whether given feature is enabled or not */ public final boolean isEnabled(Feature f) { return (_featureFlags & f.getMask()) != 0; } //protected int getFeatures() { return _generatorFeatures; } /* /********************************************************** /* MapperConfig implementation /********************************************************** */ /** * Method that checks class annotations that the argument Object has, * and modifies settings of this configuration object accordingly, * similar to how those annotations would affect actual value classes * annotated with them, but with global scope. Note that not all * annotations have global significance, and thus only subset of * Jackson annotations will have any effect. *

* Ones that are known to have effect are: *

    *
  • {@link JsonAutoDetect}
  • *
* * @param cls Class of which class annotations to use * for changing configuration settings */ //@Override public void fromAnnotations(Class cls) { /* no class annotation for: * * - CAN_OVERRIDE_ACCESS_MODIFIERS * - USE_BIG_DECIMAL_FOR_FLOATS * - USE_BIG_INTEGER_FOR_INTS * - USE_GETTERS_AS_SETTERS */ /* 10-Jul-2009, tatu: Should be able to just pass null as * 'MixInResolver'; no mix-ins set at this point */ AnnotatedClass ac = AnnotatedClass.construct(cls, _annotationIntrospector, null); // visibility checks handled via separate checker object... _visibilityChecker = _annotationIntrospector.findAutoDetectVisibility(ac, _visibilityChecker); } /** * Method that is called to create a non-shared copy of the configuration * to be used for a deserialization operation. * Note that if sub-classing * and sub-class has additional instance methods, * this method must be overridden to produce proper sub-class * instance. */ //@Override public DeserializationConfig createUnshared(TypeResolverBuilder typer, VisibilityChecker vc, SubtypeResolver subtypeResolver) { HashMap> mixins = _mixInAnnotations; _mixInAnnotationsShared = true; return new DeserializationConfig(this, mixins, typer, vc, subtypeResolver); } /** * Alternative "copy factory" that creates an unshared copy that uses * different node factory than this instance. * * @since 1.6 */ public DeserializationConfig createUnshared(JsonNodeFactory nf) { DeserializationConfig config = createUnshared(_typer, _visibilityChecker, _subtypeResolver); config.setNodeFactory(nf); return config; } //@Override public void setIntrospector(ClassIntrospector i) { _classIntrospector = i; } /** * Method for getting {@link AnnotationIntrospector} configured * to introspect annotation values used for configuration. */ //@Override public AnnotationIntrospector getAnnotationIntrospector() { /* 29-Jul-2009, tatu: it's now possible to disable use of * annotations; can be done using "no-op" introspector */ if (isEnabled(Feature.USE_ANNOTATIONS)) { return _annotationIntrospector; } return NopAnnotationIntrospector.instance; } //@Override public void setAnnotationIntrospector(AnnotationIntrospector introspector) { _annotationIntrospector = introspector; } /** * Method to use for defining mix-in annotations to use for augmenting * annotations that deserializable classes have. * Mixing in is done when introspecting class annotations and properties. * Map passed contains keys that are target classes (ones to augment * with new annotation overrides), and values that are source classes * (have annotations to use for augmentation). * Annotations from source classes (and their supertypes) * will override * annotations that target classes (and their super-types) have. *

* Note: a copy of argument Map is created; the original Map is * not modified or retained by this config object. * * @since 1.2 */ //@Override public void setMixInAnnotations(Map, Class> sourceMixins) { HashMap> mixins = null; if (sourceMixins != null && sourceMixins.size() > 0) { mixins = new HashMap>(sourceMixins.size()); for (Map.Entry,Class> en : sourceMixins.entrySet()) { mixins.put(new ClassKey(en.getKey()), en.getValue()); } } _mixInAnnotationsShared = false; _mixInAnnotations = mixins; } //@Override public void addMixInAnnotations(Class target, Class mixinSource) { if (_mixInAnnotations == null || _mixInAnnotationsShared) { _mixInAnnotationsShared = false; _mixInAnnotations = new HashMap>(); } _mixInAnnotations.put(new ClassKey(target), mixinSource); } /** * @since 1.2 */ //@Override public Class findMixInClassFor(Class cls) { return (_mixInAnnotations == null) ? null : _mixInAnnotations.get(new ClassKey(cls)); } //@Override public DateFormat getDateFormat() { return _dateFormat; } /** * Method that will set the textual deserialization to use for * deserializing Dates (and Calendars). If null is passed, will * use {@link StdDateFormat}. */ //@Override public void setDateFormat(DateFormat df) { _dateFormat = (df == null) ? StdDateFormat.instance : df; } //@Override public VisibilityChecker getDefaultVisibilityChecker() { return _visibilityChecker; } //@Override public TypeResolverBuilder getDefaultTyper(JavaType baseType) { return _typer; } /** * @since 1.6 */ public SubtypeResolver getSubtypeResolver() { if (_subtypeResolver == null) { _subtypeResolver = new StdSubtypeResolver(); } return _subtypeResolver; } /** * @since 1.6 */ public void setSubtypeResolver(SubtypeResolver r) { _subtypeResolver = r; } /* /********************************************************** /* Problem handlers /********************************************************** */ /** * Method for getting head of the problem handler chain. May be null, * if no handlers have been added. */ public LinkedNode getProblemHandlers() { return _problemHandlers; } /** * Method that can be used to add a handler that can (try to) * resolve non-fatal deserialization problems. */ public void addHandler(DeserializationProblemHandler h) { /* Sanity check: let's prevent adding same handler multiple * times */ if (!LinkedNode.contains(_problemHandlers, h)) { _problemHandlers = new LinkedNode(h, _problemHandlers); } } /** * Method for removing all configuring problem handlers; usually done to replace * existing handler(s) with different one(s) * * @since 1.1 */ public void clearHandlers() { _problemHandlers = null; } /* /********************************************************** /* Introspection methods /********************************************************** */ /** * Method that will introspect full bean properties for the purpose * of building a bean deserializer * * @param type Type of class to be introspected */ @SuppressWarnings("unchecked") public T introspect(JavaType type) { return (T) _classIntrospector.forDeserialization(this, type, this); } /** * Method that will introspect subset of bean properties needed to * construct bean instance. */ @SuppressWarnings("unchecked") public T introspectForCreation(JavaType type) { return (T) _classIntrospector.forCreation(this, type, this); } /** * Accessor for getting bean description that only contains class * annotations: useful if no getter/setter/creator information is needed. */ @SuppressWarnings("unchecked") public T introspectClassAnnotations(Class cls) { return (T) _classIntrospector.forClassAnnotations(this, cls, this); } /** * Accessor for getting bean description that only contains immediate class * annotations: ones from the class, and its direct mix-in, if any, but * not from super types. */ @SuppressWarnings("unchecked") public T introspectDirectClassAnnotations(Class cls) { return (T) _classIntrospector.forDirectClassAnnotations(this, cls, this); } /* /********************************************************** /* Polymorphic type handling configuration /********************************************************** */ /** * Method for accessing {@link AbstractTypeResolver} configured, if any * (no default) used for resolving abstract types into concrete * types (either by mapping or materializing new classes). * * @since 1.6 */ public AbstractTypeResolver getAbstractTypeResolver() { return _abstractTypeResolver; } /** * @since 1.6 */ public void setAbstractTypeResolver(AbstractTypeResolver atr) { _abstractTypeResolver = atr; } /* /********************************************************** /* Other configuration /********************************************************** */ /** * Method called during deserialization if Base64 encoded content * needs to be decoded. Default version just returns default Jackson * uses, which is modified-mime which does not add linefeeds (because * those would have to be escaped in Json strings). */ public Base64Variant getBase64Variant() { return Base64Variants.getDefaultVariant(); } /** * @since 1.6 */ public void setNodeFactory(JsonNodeFactory nf) { _nodeFactory = nf; } /** * @since 1.6 */ public final JsonNodeFactory getNodeFactory() { return _nodeFactory; } }





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