com.fasterxml.jackson.core.StreamReadFeature Maven / Gradle / Ivy
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package com.fasterxml.jackson.core;
import java.io.InputStream;
import java.io.Reader;
import com.fasterxml.jackson.core.util.JacksonFeature;
/**
* Token reader (parser) features not-specific to any particular format backend.
* Eventual replacement for non-JSON-specific {@link com.fasterxml.jackson.core.JsonParser.Feature}s.
*
* @since 2.10
*/
public enum StreamReadFeature
implements JacksonFeature // since 2.12
{
// // // Low-level I/O handling features:
/**
* Feature that determines whether parser will automatically
* close underlying input source that is NOT owned by the
* parser. If disabled, calling application has to separately
* close the underlying {@link InputStream} and {@link Reader}
* instances used to create the parser. If enabled, parser
* will handle closing, as long as parser itself gets closed:
* this happens when end-of-input is encountered, or parser
* is closed by a call to {@link JsonParser#close}.
*
* Feature is enabled by default.
*/
AUTO_CLOSE_SOURCE(JsonParser.Feature.AUTO_CLOSE_SOURCE),
// // // Validity checks
/**
* Feature that determines whether {@link JsonParser} will explicitly
* check that no duplicate JSON Object field names are encountered.
* If enabled, parser will check all names within context and report
* duplicates by throwing a {@link JsonParseException}; if disabled,
* parser will not do such checking. Assumption in latter case is
* that caller takes care of handling duplicates at a higher level:
* data-binding, for example, has features to specify detection to
* be done there.
*
* Note that enabling this feature will incur performance overhead
* due to having to store and check additional information: this typically
* adds 20-30% to execution time for basic parsing.
*/
STRICT_DUPLICATE_DETECTION(JsonParser.Feature.STRICT_DUPLICATE_DETECTION),
/**
* Feature that determines what to do if the underlying data format requires knowledge
* of all properties to decode (usually via a Schema), and if no definition is
* found for a property that input content contains.
* Typically most textual data formats do NOT require schema information (although
* some do, such as CSV), whereas many binary data formats do require definitions
* (such as Avro, protobuf), although not all (Smile, CBOR, BSON and MessagePack do not).
* Further note that some formats that do require schema information will not be able
* to ignore undefined properties: for example, Avro is fully positional and there is
* no possibility of undefined data. This leaves formats like Protobuf that have identifiers
* that may or may not map; and as such Protobuf format does make use of this feature.
*
* Note that support for this feature is implemented by individual data format
* module, if (and only if) it makes sense for the format in question. For JSON,
* for example, this feature has no effect as properties need not be pre-defined.
*
* Feature is disabled by default, meaning that if the underlying data format
* requires knowledge of all properties to output, attempts to read an unknown
* property will result in a {@link JsonProcessingException}
*/
IGNORE_UNDEFINED(JsonParser.Feature.IGNORE_UNDEFINED),
// // // Other
/**
* Feature that determines whether {@link JsonLocation} instances should be constructed
* with reference to source or not. If source reference is included, its type and contents
* are included when `toString()` method is called (most notably when printing out parse
* exception with that location information). If feature is disabled, no source reference
* is passed and source is only indicated as "UNKNOWN".
*
* Most common reason for disabling this feature is to avoid leaking
* internal information; this may be done for security reasons.
* Note that even if source reference is included, only parts of contents are usually
* printed, and not the whole contents. Further, many source reference types can not
* necessarily access contents (like streams), so only type is indicated, not contents.
*
* Feature is enabled by default, meaning that "source reference" information is passed
* and some or all of the source content may be included in {@link JsonLocation} information
* constructed either when requested explicitly, or when needed for an exception.
*/
INCLUDE_SOURCE_IN_LOCATION(JsonParser.Feature.INCLUDE_SOURCE_IN_LOCATION),
/**
* Feature that determines whether we use the built-in {@link Double#parseDouble(String)} code to parse
* doubles or if we use {@code FastDoubleParser}
* instead.
*
* This setting is disabled by default.
*
* @since 2.14
*/
USE_FAST_DOUBLE_PARSER(JsonParser.Feature.USE_FAST_DOUBLE_PARSER),
/**
* Feature that determines whether to use the built-in Java code for parsing
* BigDecimal
s and BigInteger
s or to use
* {@code FastDoubleParser} instead.
*
* This setting is disabled by default.
*
* @since 2.15
*/
USE_FAST_BIG_NUMBER_PARSER(JsonParser.Feature.USE_FAST_BIG_NUMBER_PARSER)
;
/**
* Whether feature is enabled or disabled by default.
*/
private final boolean _defaultState;
private final int _mask;
/**
* For backwards compatibility we may need to map to one of existing {@link JsonParser.Feature}s;
* if so, this is the feature to enable/disable.
*/
final private JsonParser.Feature _mappedFeature;
private StreamReadFeature(JsonParser.Feature mapTo) {
// only for 2.x, let's map everything to legacy feature:
_mappedFeature = mapTo;
_mask = mapTo.getMask();
_defaultState = mapTo.enabledByDefault();
}
/**
* Method that calculates bit set (flags) of all features that
* are enabled by default.
*
* @return Bit mask of all features that are enabled by default
*/
public static int collectDefaults()
{
int flags = 0;
for (StreamReadFeature f : values()) {
if (f.enabledByDefault()) {
flags |= f.getMask();
}
}
return flags;
}
@Override
public boolean enabledByDefault() { return _defaultState; }
@Override
public boolean enabledIn(int flags) { return (flags & _mask) != 0; }
@Override
public int getMask() { return _mask; }
public JsonParser.Feature mappedFeature() { return _mappedFeature; }
}