package com.fasterxml.jackson.databind.cfg;

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

import com.fasterxml.jackson.annotation.*;
import com.fasterxml.jackson.annotation.JsonAutoDetect.Visibility;
import com.fasterxml.jackson.core.Base64Variant;

import com.fasterxml.jackson.databind.*;
import com.fasterxml.jackson.databind.introspect.ClassIntrospector;
import com.fasterxml.jackson.databind.introspect.ClassIntrospector.MixInResolver;
import com.fasterxml.jackson.databind.introspect.AnnotatedClass;
import com.fasterxml.jackson.databind.introspect.SimpleMixInResolver;
import com.fasterxml.jackson.databind.introspect.VisibilityChecker;
import com.fasterxml.jackson.databind.jsontype.SubtypeResolver;
import com.fasterxml.jackson.databind.jsontype.TypeResolverBuilder;
import com.fasterxml.jackson.databind.type.TypeFactory;
import com.fasterxml.jackson.databind.util.RootNameLookup;

@SuppressWarnings("serial")
public abstract class MapperConfigBase<CFG extends ConfigFeature,
    T extends MapperConfigBase<CFG,T>>
    extends MapperConfig<T>
    implements java.io.Serializable
{
    
Since:2.9
/** * @since 2.9 */
protected final static ConfigOverride EMPTY_OVERRIDE = ConfigOverride.empty(); private final static int DEFAULT_MAPPER_FEATURES = collectFeatureDefaults(MapperFeature.class);
Since:2.9
/** * @since 2.9 */
private final static int AUTO_DETECT_MASK = MapperFeature.AUTO_DETECT_FIELDS.getMask() | MapperFeature.AUTO_DETECT_GETTERS.getMask() | MapperFeature.AUTO_DETECT_IS_GETTERS.getMask() | MapperFeature.AUTO_DETECT_SETTERS.getMask() | MapperFeature.AUTO_DETECT_CREATORS.getMask() ; /* /********************************************************** /* Immutable config /********************************************************** */
Mix-in annotation mappings to use, if any: immutable, cannot be changed once defined.
Since:2.6
/** * Mix-in annotation mappings to use, if any: immutable, * cannot be changed once defined. * * @since 2.6 */
protected final SimpleMixInResolver _mixIns;
Registered concrete subtypes that can be used instead of (or in addition to) ones declared using annotations.

Note that instances are stateful and as such may need to be copied, and may NOT be demoted down to BaseSettings.

/** * Registered concrete subtypes that can be used instead of (or * in addition to) ones declared using annotations. *<p> * Note that instances are stateful and as such may need to be copied, * and may NOT be demoted down to {@link BaseSettings}. */
protected final SubtypeResolver _subtypeResolver;
Explicitly defined root name to use, if any; if empty String, will disable root-name wrapping; if null, will use defaults
/** * Explicitly defined root name to use, if any; if empty * String, will disable root-name wrapping; if null, will * use defaults */
protected final PropertyName _rootName;
View to use for filtering out properties to serialize or deserialize. Null if none (will also be assigned null if Object.class is defined), meaning that all properties are to be included.
/** * View to use for filtering out properties to serialize * or deserialize. * Null if none (will also be assigned null if <code>Object.class</code> * is defined), meaning that all properties are to be included. */
protected final Class<?> _view;
Contextual attributes accessible (get and set) during processing, on per-call basis.
Since:2.3
/** * Contextual attributes accessible (get and set) during processing, * on per-call basis. * * @since 2.3 */
protected final ContextAttributes _attributes;
Simple cache used for finding out possible root name for root name wrapping.

Note that instances are stateful (for caching) and as such may need to be copied, and may NOT be demoted down to BaseSettings.

Since:2.6
/** * Simple cache used for finding out possible root name for root name * wrapping. *<p> * Note that instances are stateful (for caching) and as such may need to be copied, * and may NOT be demoted down to {@link BaseSettings}. * * @since 2.6 */
protected final RootNameLookup _rootNames;
Configuration overrides to apply, keyed by type of property.
Since:2.8
/** * Configuration overrides to apply, keyed by type of property. * * @since 2.8 */
protected final ConfigOverrides _configOverrides; /* /********************************************************** /* Construction /********************************************************** */
Constructor used when creating a new instance (compared to that of creating fluent copies)
Since:2.8
/** * Constructor used when creating a new instance (compared to * that of creating fluent copies) * * @since 2.8 */
protected MapperConfigBase(BaseSettings base, SubtypeResolver str, SimpleMixInResolver mixins, RootNameLookup rootNames, ConfigOverrides configOverrides) { super(base, DEFAULT_MAPPER_FEATURES); _mixIns = mixins; _subtypeResolver = str; _rootNames = rootNames; _rootName = null; _view = null; // default to "no attributes" _attributes = ContextAttributes.getEmpty(); _configOverrides = configOverrides; }
Copy constructor usually called to make a copy for use by ObjectMapper that is copied.
Since:2.8
/** * Copy constructor usually called to make a copy for use by * ObjectMapper that is copied. * * @since 2.8 */
protected MapperConfigBase(MapperConfigBase<CFG,T> src, SimpleMixInResolver mixins, RootNameLookup rootNames, ConfigOverrides configOverrides) { // 18-Apr-2018, tatu: [databind#1898] need to force copying of `ClassIntrospector` // (to clear its cache) to avoid leakage super(src, src._base.copy()); _mixIns = mixins; _subtypeResolver = src._subtypeResolver; _rootNames = rootNames; _rootName = src._rootName; _view = src._view; _attributes = src._attributes; _configOverrides = configOverrides; }
Pass-through constructor used when no changes are needed to the base class.
/** * Pass-through constructor used when no changes are needed to the * base class. */
protected MapperConfigBase(MapperConfigBase<CFG,T> src) { super(src); _mixIns = src._mixIns; _subtypeResolver = src._subtypeResolver; _rootNames = src._rootNames; _rootName = src._rootName; _view = src._view; _attributes = src._attributes; _configOverrides = src._configOverrides; } protected MapperConfigBase(MapperConfigBase<CFG,T> src, BaseSettings base) { super(src, base); _mixIns = src._mixIns; _subtypeResolver = src._subtypeResolver; _rootNames = src._rootNames; _rootName = src._rootName; _view = src._view; _attributes = src._attributes; _configOverrides = src._configOverrides; } protected MapperConfigBase(MapperConfigBase<CFG,T> src, int mapperFeatures) { super(src, mapperFeatures); _mixIns = src._mixIns; _subtypeResolver = src._subtypeResolver; _rootNames = src._rootNames; _rootName = src._rootName; _view = src._view; _attributes = src._attributes; _configOverrides = src._configOverrides; } protected MapperConfigBase(MapperConfigBase<CFG,T> src, SubtypeResolver str) { super(src); _mixIns = src._mixIns; _subtypeResolver = str; _rootNames = src._rootNames; _rootName = src._rootName; _view = src._view; _attributes = src._attributes; _configOverrides = src._configOverrides; } protected MapperConfigBase(MapperConfigBase<CFG,T> src, PropertyName rootName) { super(src); _mixIns = src._mixIns; _subtypeResolver = src._subtypeResolver; _rootNames = src._rootNames; _rootName = rootName; _view = src._view; _attributes = src._attributes; _configOverrides = src._configOverrides; } protected MapperConfigBase(MapperConfigBase<CFG,T> src, Class<?> view) { super(src); _mixIns = src._mixIns; _subtypeResolver = src._subtypeResolver; _rootNames = src._rootNames; _rootName = src._rootName; _view = view; _attributes = src._attributes; _configOverrides = src._configOverrides; }
Since:2.1
/** * @since 2.1 */
protected MapperConfigBase(MapperConfigBase<CFG,T> src, SimpleMixInResolver mixins) { super(src); _mixIns = mixins; _subtypeResolver = src._subtypeResolver; _rootNames = src._rootNames; _rootName = src._rootName; _view = src._view; _attributes = src._attributes; _configOverrides = src._configOverrides; }
Since:2.3
/** * @since 2.3 */
protected MapperConfigBase(MapperConfigBase<CFG,T> src, ContextAttributes attr) { super(src); _mixIns = src._mixIns; _subtypeResolver = src._subtypeResolver; _rootNames = src._rootNames; _rootName = src._rootName; _view = src._view; _attributes = attr; _configOverrides = src._configOverrides; } /* /********************************************************** /* Abstract fluent factory methods to be implemented by subtypes /********************************************************** */
Since:2.9 (in this case, demoted from sub-classes)
/** * @since 2.9 (in this case, demoted from sub-classes) */
protected abstract T _withBase(BaseSettings newBase);
Since:2.9 (in this case, demoted from sub-classes)
/** * @since 2.9 (in this case, demoted from sub-classes) */
protected abstract T _withMapperFeatures(int mapperFeatures); /* /********************************************************** /* Additional shared fluent factory methods; features /********************************************************** */
Fluent factory method that will construct and return a new configuration object instance with specified features enabled.
/** * Fluent factory method that will construct and return a new configuration * object instance with specified features enabled. */
@SuppressWarnings("unchecked") @Override public final T with(MapperFeature... features) { int newMapperFlags = _mapperFeatures; for (MapperFeature f : features) { newMapperFlags |= f.getMask(); } if (newMapperFlags == _mapperFeatures) { return (T) this; } return _withMapperFeatures(newMapperFlags); }
Fluent factory method that will construct and return a new configuration object instance with specified features disabled.
/** * Fluent factory method that will construct and return a new configuration * object instance with specified features disabled. */
@SuppressWarnings("unchecked") @Override public final T without(MapperFeature... features) { int newMapperFlags = _mapperFeatures; for (MapperFeature f : features) { newMapperFlags &= ~f.getMask(); } if (newMapperFlags == _mapperFeatures) { return (T) this; } return _withMapperFeatures(newMapperFlags); } @SuppressWarnings("unchecked") @Override public final T with(MapperFeature feature, boolean state) { int newMapperFlags; if (state) { newMapperFlags = _mapperFeatures | feature.getMask(); } else { newMapperFlags = _mapperFeatures & ~feature.getMask(); } if (newMapperFlags == _mapperFeatures) { return (T) this; } return _withMapperFeatures(newMapperFlags); } /* /********************************************************** /* Additional shared fluent factory methods; introspectors /********************************************************** */
Method for constructing and returning a new instance with different AnnotationIntrospector to use (replacing old one).

NOTE: make sure to register new instance with ObjectMapper if directly calling this method.

/** * Method for constructing and returning a new instance with different * {@link AnnotationIntrospector} to use (replacing old one). *<p> * NOTE: make sure to register new instance with <code>ObjectMapper</code> * if directly calling this method. */
public final T with(AnnotationIntrospector ai) { return _withBase(_base.withAnnotationIntrospector(ai)); }
Method for constructing and returning a new instance with additional AnnotationIntrospector appended (as the lowest priority one)
/** * Method for constructing and returning a new instance with additional * {@link AnnotationIntrospector} appended (as the lowest priority one) */
public final T withAppendedAnnotationIntrospector(AnnotationIntrospector ai) { return _withBase(_base.withAppendedAnnotationIntrospector(ai)); }
Method for constructing and returning a new instance with additional AnnotationIntrospector inserted (as the highest priority one)
/** * Method for constructing and returning a new instance with additional * {@link AnnotationIntrospector} inserted (as the highest priority one) */
public final T withInsertedAnnotationIntrospector(AnnotationIntrospector ai) { return _withBase(_base.withInsertedAnnotationIntrospector(ai)); }
Method for constructing and returning a new instance with different ClassIntrospector to use.

NOTE: make sure to register new instance with ObjectMapper if directly calling this method.

/** * Method for constructing and returning a new instance with different * {@link ClassIntrospector} * to use. *<p> * NOTE: make sure to register new instance with <code>ObjectMapper</code> * if directly calling this method. */
public final T with(ClassIntrospector ci) { return _withBase(_base.withClassIntrospector(ci)); } /* /********************************************************** /* Additional shared fluent factory methods; attributes /********************************************************** */
Method for constructing an instance that has specified contextual attributes.
Since:2.3
/** * Method for constructing an instance that has specified * contextual attributes. * * @since 2.3 */
public abstract T with(ContextAttributes attrs);
Method for constructing an instance that has only specified attributes, removing any attributes that exist before the call.
Since:2.3
/** * Method for constructing an instance that has only specified * attributes, removing any attributes that exist before the call. * * @since 2.3 */
public T withAttributes(Map<?,?> attributes) { return with(getAttributes().withSharedAttributes(attributes)); }
Method for constructing an instance that has specified value for attribute for given key.
Since:2.3
/** * Method for constructing an instance that has specified * value for attribute for given key. * * @since 2.3 */
public T withAttribute(Object key, Object value) { return with(getAttributes().withSharedAttribute(key, value)); }
Method for constructing an instance that has no value for attribute for given key.
Since:2.3
/** * Method for constructing an instance that has no * value for attribute for given key. * * @since 2.3 */
public T withoutAttribute(Object key) { return with(getAttributes().withoutSharedAttribute(key)); } /* /********************************************************** /* Additional shared fluent factory methods; factories /********************************************************** */
Method for constructing and returning a new instance with different TypeFactory to use.
/** * Method for constructing and returning a new instance with different * {@link TypeFactory} * to use. */
public final T with(TypeFactory tf) { return _withBase( _base.withTypeFactory(tf)); }
Method for constructing and returning a new instance with different TypeResolverBuilder to use.
/** * Method for constructing and returning a new instance with different * {@link TypeResolverBuilder} to use. */
public final T with(TypeResolverBuilder<?> trb) { return _withBase(_base.withTypeResolverBuilder(trb)); }
Method for constructing and returning a new instance with different PropertyNamingStrategy to use.

NOTE: make sure to register new instance with ObjectMapper if directly calling this method.

/** * Method for constructing and returning a new instance with different * {@link PropertyNamingStrategy} * to use. *<p> * NOTE: make sure to register new instance with <code>ObjectMapper</code> * if directly calling this method. */
public final T with(PropertyNamingStrategy pns) { return _withBase(_base.withPropertyNamingStrategy(pns)); }
Method for constructing and returning a new instance with different HandlerInstantiator to use.

NOTE: make sure to register new instance with ObjectMapper if directly calling this method.

/** * Method for constructing and returning a new instance with different * {@link HandlerInstantiator} * to use. *<p> * NOTE: make sure to register new instance with <code>ObjectMapper</code> * if directly calling this method. */
public final T with(HandlerInstantiator hi) { return _withBase(_base.withHandlerInstantiator(hi)); } /* /********************************************************** /* Additional shared fluent factory methods; other /********************************************************** */
Method for constructing and returning a new instance with different default Base64Variant to use with base64-encoded binary values.
/** * Method for constructing and returning a new instance with different * default {@link Base64Variant} to use with base64-encoded binary values. */
public final T with(Base64Variant base64) { return _withBase(_base.with(base64)); }
Method for constructing and returning a new instance with different DateFormat to use.

NOTE: non-final since SerializationConfig needs to override this

/** * Method for constructing and returning a new instance with different * {@link DateFormat} * to use. *<p> * NOTE: non-final since <code>SerializationConfig</code> needs to override this */
public T with(DateFormat df) { return _withBase(_base.withDateFormat(df)); }
Method for constructing and returning a new instance with different default Locale to use for formatting.
/** * Method for constructing and returning a new instance with different * default {@link java.util.Locale} to use for formatting. */
public final T with(Locale l) { return _withBase(_base.with(l)); }
Method for constructing and returning a new instance with different default TimeZone to use for formatting of date values.
/** * Method for constructing and returning a new instance with different * default {@link java.util.TimeZone} to use for formatting of date values. */
public final T with(TimeZone tz) { return _withBase(_base.with(tz)); }
Method for constructing and returning a new instance with different root name to use (none, if null).

Note that when a root name is set to a non-Empty String, this will automatically force use of root element wrapping with given name. If empty String passed, will disable root name wrapping; and if null used, will instead use SerializationFeature to determine if to use wrapping, and annotation (or default name) for actual root name to use.

Params:
  • rootName – to use: if null, means "use default" (clear setting); if empty String ("") means that no root name wrapping is used; otherwise defines root name to use.
Since:2.6
/** * Method for constructing and returning a new instance with different * root name to use (none, if null). *<p> * Note that when a root name is set to a non-Empty String, this will automatically force use * of root element wrapping with given name. If empty String passed, will * disable root name wrapping; and if null used, will instead use * <code>SerializationFeature</code> to determine if to use wrapping, and annotation * (or default name) for actual root name to use. * * @param rootName to use: if null, means "use default" (clear setting); * if empty String ("") means that no root name wrapping is used; * otherwise defines root name to use. * * @since 2.6 */
public abstract T withRootName(PropertyName rootName); public T withRootName(String rootName) { if (rootName == null) { return withRootName((PropertyName) null); } return withRootName(PropertyName.construct(rootName)); }
Method for constructing and returning a new instance with different SubtypeResolver to use.

NOTE: make sure to register new instance with ObjectMapper if directly calling this method.

/** * Method for constructing and returning a new instance with different * {@link SubtypeResolver} * to use. *<p> * NOTE: make sure to register new instance with <code>ObjectMapper</code> * if directly calling this method. */
public abstract T with(SubtypeResolver str);
Method for constructing and returning a new instance with different view to use.
/** * Method for constructing and returning a new instance with different * view to use. */
public abstract T withView(Class<?> view); /* /********************************************************** /* Simple accessors /********************************************************** */
Accessor for object used for finding out all reachable subtypes for supertypes; needed when a logical type name is used instead of class name (or custom scheme).
/** * Accessor for object used for finding out all reachable subtypes * for supertypes; needed when a logical type name is used instead * of class name (or custom scheme). */
@Override public final SubtypeResolver getSubtypeResolver() { return _subtypeResolver; }
Deprecated:Since 2.6 use getFullRootName instead.
/** * @deprecated Since 2.6 use {@link #getFullRootName} instead. */
@Deprecated // since 2.6 public final String getRootName() { return (_rootName == null) ? null : _rootName.getSimpleName(); }
Since:2.6
/** * @since 2.6 */
public final PropertyName getFullRootName() { return _rootName; } @Override public final Class<?> getActiveView() { return _view; } @Override public final ContextAttributes getAttributes() { return _attributes; } /* /********************************************************** /* Configuration access; default/overrides /********************************************************** */ @Override public final ConfigOverride getConfigOverride(Class<?> type) { ConfigOverride override = _configOverrides.findOverride(type); return (override == null) ? EMPTY_OVERRIDE : override; } @Override public final ConfigOverride findConfigOverride(Class<?> type) { return _configOverrides.findOverride(type); } @Override public final JsonInclude.Value getDefaultPropertyInclusion() { return _configOverrides.getDefaultInclusion(); } @Override public final JsonInclude.Value getDefaultPropertyInclusion(Class<?> baseType) { JsonInclude.Value v = getConfigOverride(baseType).getInclude(); JsonInclude.Value def = getDefaultPropertyInclusion(); if (def == null) { return v; } return def.withOverrides(v); } @Override public final JsonInclude.Value getDefaultInclusion(Class<?> baseType, Class<?> propertyType) { JsonInclude.Value v = getConfigOverride(propertyType).getIncludeAsProperty(); JsonInclude.Value def = getDefaultPropertyInclusion(baseType); if (def == null) { return v; } return def.withOverrides(v); } @Override public final JsonFormat.Value getDefaultPropertyFormat(Class<?> type) { return _configOverrides.findFormatDefaults(type); } @Override public final JsonIgnoreProperties.Value getDefaultPropertyIgnorals(Class<?> type) { ConfigOverride overrides = _configOverrides.findOverride(type); if (overrides != null) { JsonIgnoreProperties.Value v = overrides.getIgnorals(); if (v != null) { return v; } } // 01-May-2015, tatu: Could return `Value.empty()` but for now `null` // seems simpler as callers can avoid processing. return null; } @Override public final JsonIgnoreProperties.Value getDefaultPropertyIgnorals(Class<?> baseType, AnnotatedClass actualClass) { AnnotationIntrospector intr = getAnnotationIntrospector(); JsonIgnoreProperties.Value base = (intr == null) ? null : intr.findPropertyIgnorals(actualClass); JsonIgnoreProperties.Value overrides = getDefaultPropertyIgnorals(baseType); return JsonIgnoreProperties.Value.merge(base, overrides); } @Override public final VisibilityChecker<?> getDefaultVisibilityChecker() { VisibilityChecker<?> vchecker = _configOverrides.getDefaultVisibility(); // then global overrides (disabling) // 05-Mar-2018, tatu: As per [databind#1947], need to see if any disabled if ((_mapperFeatures & AUTO_DETECT_MASK) != AUTO_DETECT_MASK) { if (!isEnabled(MapperFeature.AUTO_DETECT_FIELDS)) { vchecker = vchecker.withFieldVisibility(Visibility.NONE); } if (!isEnabled(MapperFeature.AUTO_DETECT_GETTERS)) { vchecker = vchecker.withGetterVisibility(Visibility.NONE); } if (!isEnabled(MapperFeature.AUTO_DETECT_IS_GETTERS)) { vchecker = vchecker.withIsGetterVisibility(Visibility.NONE); } if (!isEnabled(MapperFeature.AUTO_DETECT_SETTERS)) { vchecker = vchecker.withSetterVisibility(Visibility.NONE); } if (!isEnabled(MapperFeature.AUTO_DETECT_CREATORS)) { vchecker = vchecker.withCreatorVisibility(Visibility.NONE); } } return vchecker; } @Override // since 2.9 public final VisibilityChecker<?> getDefaultVisibilityChecker(Class<?> baseType, AnnotatedClass actualClass) { VisibilityChecker<?> vc = getDefaultVisibilityChecker(); AnnotationIntrospector intr = getAnnotationIntrospector(); if (intr != null) { vc = intr.findAutoDetectVisibility(actualClass, vc); } ConfigOverride overrides = _configOverrides.findOverride(baseType); if (overrides != null) { vc = vc.withOverrides(overrides.getVisibility()); // ok to pass null } return vc; } @Override public final JsonSetter.Value getDefaultSetterInfo() { return _configOverrides.getDefaultSetterInfo(); } @Override public Boolean getDefaultMergeable() { return _configOverrides.getDefaultMergeable(); } @Override public Boolean getDefaultMergeable(Class<?> baseType) { Boolean b; ConfigOverride cfg = _configOverrides.findOverride(baseType); if (cfg != null) { b = cfg.getMergeable(); if (b != null) { return b; } } return _configOverrides.getDefaultMergeable(); } /* /********************************************************** /* Other config access /********************************************************** */ @Override public PropertyName findRootName(JavaType rootType) { if (_rootName != null) { return _rootName; } return _rootNames.findRootName(rootType, this); } @Override public PropertyName findRootName(Class<?> rawRootType) { if (_rootName != null) { return _rootName; } return _rootNames.findRootName(rawRootType, this); } /* /********************************************************** /* ClassIntrospector.MixInResolver impl: /********************************************************** */
Method that will check if there are "mix-in" classes (with mix-in annotations) for given class
/** * Method that will check if there are "mix-in" classes (with mix-in * annotations) for given class */
@Override public final Class<?> findMixInClassFor(Class<?> cls) { return _mixIns.findMixInClassFor(cls); } // Not really relevant here (should not get called) @Override public MixInResolver copy() { throw new UnsupportedOperationException(); }
Test-only method -- does not reflect possibly open-ended set that external mix-in resolver might provide.
/** * Test-only method -- does not reflect possibly open-ended set that external * mix-in resolver might provide. */
public final int mixInCount() { return _mixIns.localSize(); } }