/* Jackson JSON-processor.
*
* Copyright (c) 2007- Tatu Saloranta, tatu.saloranta@iki.fi
*/
package com.fasterxml.jackson.core;
import java.io.*;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.util.concurrent.atomic.AtomicBoolean;
import java.util.concurrent.atomic.AtomicInteger;
import java.util.concurrent.atomic.AtomicLong;
import com.fasterxml.jackson.core.JsonParser.NumberType;
import com.fasterxml.jackson.core.io.CharacterEscapes;
import com.fasterxml.jackson.core.type.WritableTypeId;
import com.fasterxml.jackson.core.type.WritableTypeId.Inclusion;
import com.fasterxml.jackson.core.util.VersionUtil;
import static com.fasterxml.jackson.core.JsonTokenId.*;
Base class that defines public API for writing JSON content. Instances are created using factory methods of a JsonFactory
instance. Author: Tatu Saloranta
/**
* Base class that defines public API for writing JSON content.
* Instances are created using factory methods of
* a {@link JsonFactory} instance.
*
* @author Tatu Saloranta
*/
public abstract class JsonGenerator
implements Closeable, Flushable, Versioned
{
Enumeration that defines all togglable features for generators.
/**
* Enumeration that defines all togglable features for generators.
*/
public enum Feature {
// // Low-level I/O / content features
Feature that determines whether generator will automatically close underlying output target that is NOT owned by the generator. If disabled, calling application has to separately close the underlying OutputStream
and Writer
instances used to create the generator. If enabled, generator will handle closing, as long as generator itself gets closed: this happens when end-of-input is encountered, or generator is closed by a call to JsonGenerator.close
.
Feature is enabled by default.
/**
* Feature that determines whether generator will automatically
* close underlying output target that is NOT owned by the
* generator.
* If disabled, calling application has to separately
* close the underlying {@link OutputStream} and {@link Writer}
* instances used to create the generator. If enabled, generator
* will handle closing, as long as generator itself gets closed:
* this happens when end-of-input is encountered, or generator
* is closed by a call to {@link JsonGenerator#close}.
*<p>
* Feature is enabled by default.
*/
AUTO_CLOSE_TARGET(true),
Feature that determines what happens when the generator is closed while there are still unmatched JsonToken.START_ARRAY
or JsonToken.START_OBJECT
entries in output content. If enabled, such Array(s) and/or Object(s) are automatically closed; if disabled, nothing specific is done.
Feature is enabled by default.
/**
* Feature that determines what happens when the generator is
* closed while there are still unmatched
* {@link JsonToken#START_ARRAY} or {@link JsonToken#START_OBJECT}
* entries in output content. If enabled, such Array(s) and/or
* Object(s) are automatically closed; if disabled, nothing
* specific is done.
*<p>
* Feature is enabled by default.
*/
AUTO_CLOSE_JSON_CONTENT(true),
Feature that specifies that calls to flush
will cause matching flush()
to underlying OutputStream
or Writer
; if disabled this will not be done. Main reason to disable this feature is to prevent flushing at generator level, if it is not possible to prevent method being called by other code (like ObjectMapper
or third
party libraries).
Feature is enabled by default.
/**
* Feature that specifies that calls to {@link #flush} will cause
* matching <code>flush()</code> to underlying {@link OutputStream}
* or {@link Writer}; if disabled this will not be done.
* Main reason to disable this feature is to prevent flushing at
* generator level, if it is not possible to prevent method being
* called by other code (like <code>ObjectMapper</code> or third
* party libraries).
*<p>
* Feature is enabled by default.
*/
FLUSH_PASSED_TO_STREAM(true),
// // Quoting-related features
Feature that determines whether JSON Object field names are
quoted using double-quotes, as specified by JSON specification
or not. Ability to disable quoting was added to support use
cases where they are not usually expected, which most commonly
occurs when used straight from Javascript.
Feature is enabled by default (since it is required by JSON specification).
Deprecated: Since 2.10 use JsonWriteFeature.QUOTE_FIELD_NAMES
instead
/**
* Feature that determines whether JSON Object field names are
* quoted using double-quotes, as specified by JSON specification
* or not. Ability to disable quoting was added to support use
* cases where they are not usually expected, which most commonly
* occurs when used straight from Javascript.
*<p>
* Feature is enabled by default (since it is required by JSON specification).
*
* @deprecated Since 2.10 use {@link com.fasterxml.jackson.core.json.JsonWriteFeature#QUOTE_FIELD_NAMES} instead
*/
@Deprecated
QUOTE_FIELD_NAMES(true),
Feature that determines whether "exceptional" (not real number)
float/double values are output as quoted strings.
The values checked are Double.Nan,
Double.POSITIVE_INFINITY and Double.NEGATIVE_INIFINTY (and
associated Float values).
If feature is disabled, these numbers are still output using
associated literal values, resulting in non-conformant
output.
Feature is enabled by default.
Deprecated: Since 2.10 use JsonWriteFeature.WRITE_NAN_AS_STRINGS
instead
/**
* Feature that determines whether "exceptional" (not real number)
* float/double values are output as quoted strings.
* The values checked are Double.Nan,
* Double.POSITIVE_INFINITY and Double.NEGATIVE_INIFINTY (and
* associated Float values).
* If feature is disabled, these numbers are still output using
* associated literal values, resulting in non-conformant
* output.
*<p>
* Feature is enabled by default.
*
* @deprecated Since 2.10 use {@link com.fasterxml.jackson.core.json.JsonWriteFeature#WRITE_NAN_AS_STRINGS} instead
*/
@Deprecated
QUOTE_NON_NUMERIC_NUMBERS(true),
// // Character escaping features
Feature that specifies that all characters beyond 7-bit ASCII
range (i.e. code points of 128 and above) need to be output
using format-specific escapes (for JSON, backslash escapes),
if format uses escaping mechanisms (which is generally true
for textual formats but not for binary formats).
Note that this setting may not necessarily make sense for all
data formats (for example, binary formats typically do not use
any escaping mechanisms; and some textual formats do not have
general-purpose escaping); if so, settings is simply ignored.
Put another way, effects of this feature are data-format specific.
Feature is disabled by default.
Deprecated: Since 2.10 use JsonWriteFeature.ESCAPE_NON_ASCII
instead
/**
* Feature that specifies that all characters beyond 7-bit ASCII
* range (i.e. code points of 128 and above) need to be output
* using format-specific escapes (for JSON, backslash escapes),
* if format uses escaping mechanisms (which is generally true
* for textual formats but not for binary formats).
*<p>
* Note that this setting may not necessarily make sense for all
* data formats (for example, binary formats typically do not use
* any escaping mechanisms; and some textual formats do not have
* general-purpose escaping); if so, settings is simply ignored.
* Put another way, effects of this feature are data-format specific.
*<p>
* Feature is disabled by default.
*
* @deprecated Since 2.10 use {@link com.fasterxml.jackson.core.json.JsonWriteFeature#ESCAPE_NON_ASCII} instead
*/
@Deprecated
ESCAPE_NON_ASCII(false),
// // Datatype coercion features
Feature that forces all Java numbers to be written as Strings,
even if the underlying data format has non-textual representation
(which is the case for JSON as well as all binary formats).
Default state is 'false', meaning that Java numbers are to
be serialized using basic numeric serialization (as JSON
numbers, integral or floating point, for example).
If enabled, all such numeric values are instead written out as
textual values (which for JSON means quoted in double-quotes).
One use case is to avoid problems with Javascript limitations:
since Javascript standard specifies that all number handling
should be done using 64-bit IEEE 754 floating point values,
result being that some 64-bit integer values can not be
accurately represent (as mantissa is only 51 bit wide).
Feature is disabled by default.
Deprecated: Since 2.10 use JsonWriteFeature.WRITE_NUMBERS_AS_STRINGS
instead
/**
* Feature that forces all Java numbers to be written as Strings,
* even if the underlying data format has non-textual representation
* (which is the case for JSON as well as all binary formats).
* Default state is 'false', meaning that Java numbers are to
* be serialized using basic numeric serialization (as JSON
* numbers, integral or floating point, for example).
* If enabled, all such numeric values are instead written out as
* textual values (which for JSON means quoted in double-quotes).
*<p>
* One use case is to avoid problems with Javascript limitations:
* since Javascript standard specifies that all number handling
* should be done using 64-bit IEEE 754 floating point values,
* result being that some 64-bit integer values can not be
* accurately represent (as mantissa is only 51 bit wide).
*<p>
* Feature is disabled by default.
*
* @deprecated Since 2.10 use {@link com.fasterxml.jackson.core.json.JsonWriteFeature#WRITE_NUMBERS_AS_STRINGS} instead
*/
@Deprecated
WRITE_NUMBERS_AS_STRINGS(false),
Feature that determines whether BigDecimal
entries are serialized using BigDecimal.toPlainString()
to prevent values to be written using scientific notation. NOTE: only affects generators that serialize BigDecimal
s using textual representation (textual formats but potentially some binary formats).
Feature is disabled by default, so default output mode is used; this generally depends on how BigDecimal
has been created.
Since: 2.3
/**
* Feature that determines whether {@link java.math.BigDecimal} entries are
* serialized using {@link java.math.BigDecimal#toPlainString()} to prevent
* values to be written using scientific notation.
*<p>
* NOTE: only affects generators that serialize {@link java.math.BigDecimal}s
* using textual representation (textual formats but potentially some binary
* formats).
*<p>
* Feature is disabled by default, so default output mode is used; this generally
* depends on how {@link BigDecimal} has been created.
*
* @since 2.3
*/
WRITE_BIGDECIMAL_AS_PLAIN(false),
// // Schema/Validity support features
Feature that determines whether JsonGenerator
will explicitly check that no duplicate JSON Object field names are written. If enabled, generator will check all names within context and report duplicates by throwing a JsonGenerationException
; if disabled, no such checking will be done. Assumption in latter case is that caller takes care of not trying to write duplicate names.
Note that enabling this feature will incur performance overhead
due to having to store and check additional information.
Feature is disabled by default.
Since: 2.3
/**
* Feature that determines whether {@link JsonGenerator} will explicitly
* check that no duplicate JSON Object field names are written.
* If enabled, generator will check all names within context and report
* duplicates by throwing a {@link JsonGenerationException}; if disabled,
* no such checking will be done. Assumption in latter case is
* that caller takes care of not trying to write duplicate names.
*<p>
* Note that enabling this feature will incur performance overhead
* due to having to store and check additional information.
*<p>
* Feature is disabled by default.
*
* @since 2.3
*/
STRICT_DUPLICATE_DETECTION(false),
Feature that determines what to do if the underlying data format requires knowledge of all properties to output, and if no definition is found for a property that caller tries to write. If enabled, such properties will be quietly ignored; if disabled, a JsonProcessingException
will be thrown to indicate the problem. 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).
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 write an unknown property will result in a JsonProcessingException
Since: 2.5
/**
* Feature that determines what to do if the underlying data format requires knowledge
* of all properties to output, and if no definition is found for a property that
* caller tries to write. If enabled, such properties will be quietly ignored;
* if disabled, a {@link JsonProcessingException} will be thrown to indicate the
* problem.
* 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).
*<p>
* 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.
*<p>
* Feature is disabled by default, meaning that if the underlying data format
* requires knowledge of all properties to output, attempts to write an unknown
* property will result in a {@link JsonProcessingException}
*
* @since 2.5
*/
IGNORE_UNKNOWN(false),
;
private final boolean _defaultState;
private final int _mask;
Method that calculates bit set (flags) of all features that
are enabled by default.
/**
* 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;
_mask = (1 << ordinal());
}
public boolean enabledByDefault() { return _defaultState; }
Since: 2.3
/**
* @since 2.3
*/
public boolean enabledIn(int flags) { return (flags & _mask) != 0; }
public int getMask() { return _mask; }
}
/*
/**********************************************************
/* Configuration
/**********************************************************
*/
Object that handles pretty-printing (usually additional
white space to make results more human-readable) during
output. If null, no pretty-printing is done.
/**
* Object that handles pretty-printing (usually additional
* white space to make results more human-readable) during
* output. If null, no pretty-printing is done.
*/
protected PrettyPrinter _cfgPrettyPrinter;
/*
/**********************************************************
/* Construction, initialization
/**********************************************************
*/
protected JsonGenerator() { }
Method that can be called to set or reset the object to use for writing Java objects as JsonContent (using method writeObject
). Returns: Generator itself (this), to allow chaining
/**
* Method that can be called to set or reset the object to
* use for writing Java objects as JsonContent
* (using method {@link #writeObject}).
*
* @return Generator itself (this), to allow chaining
*/
public abstract JsonGenerator setCodec(ObjectCodec oc);
Method for accessing the object used for writing Java object as JSON content (using method writeObject
). /**
* Method for accessing the object used for writing Java
* object as JSON content
* (using method {@link #writeObject}).
*/
public abstract ObjectCodec getCodec();
Accessor for finding out version of the bundle that provided this generator instance.
/**
* Accessor for finding out version of the bundle that provided this generator instance.
*/
@Override
public abstract Version version();
/*
/**********************************************************
/* Public API, Feature configuration
/**********************************************************
*/
Method for enabling specified parser features: check Feature
for list of available features. Returns: Generator itself (this), to allow chaining
/**
* Method for enabling specified parser features:
* check {@link Feature} for list of available features.
*
* @return Generator itself (this), to allow chaining
*/
public abstract JsonGenerator enable(Feature f);
Method for disabling specified features (check Feature
for list of features) Returns: Generator itself (this), to allow chaining
/**
* Method for disabling specified features
* (check {@link Feature} for list of features)
*
* @return Generator itself (this), to allow chaining
*/
public abstract JsonGenerator disable(Feature f);
Method for enabling or disabling specified feature: check Feature
for list of available features. Returns: Generator itself (this), to allow chaining
/**
* Method for enabling or disabling specified feature:
* check {@link Feature} for list of available features.
*
* @return Generator itself (this), to allow chaining
*/
public final JsonGenerator configure(Feature f, boolean state) {
if (state) enable(f); else disable(f);
return this;
}
Method for checking whether given feature is enabled. Check Feature
for list of available features. /**
* Method for checking whether given feature is enabled.
* Check {@link Feature} for list of available features.
*/
public abstract boolean isEnabled(Feature f);
Since: 2.10
/**
* @since 2.10
*/
public boolean isEnabled(StreamWriteFeature f) {
return isEnabled(f.mappedFeature());
}
Bulk access method for getting state of all standard (non-dataformat-specific) Feature
s. Returns: Bit mask that defines current states of all standard Feature
s. Since: 2.3
/**
* Bulk access method for getting state of all standard (non-dataformat-specific)
* {@link JsonGenerator.Feature}s.
*
* @return Bit mask that defines current states of all standard {@link JsonGenerator.Feature}s.
*
* @since 2.3
*/
public abstract int getFeatureMask();
Bulk set method for (re)setting states of all standard Feature
s Params: - values – Bitmask that defines which
Feature
s are enabled and which disabled
Since: 2.3 Returns: This parser object, to allow chaining of calls Deprecated: Since 2.7, use overrideStdFeatures(int, int)
instead -- remove from 2.9
/**
* Bulk set method for (re)setting states of all standard {@link Feature}s
*
* @since 2.3
*
* @param values Bitmask that defines which {@link Feature}s are enabled
* and which disabled
*
* @return This parser object, to allow chaining of calls
*
* @deprecated Since 2.7, use {@link #overrideStdFeatures(int, int)} instead -- remove from 2.9
*/
@Deprecated
public abstract JsonGenerator setFeatureMask(int values);
Bulk set method for (re)setting states of features specified by mask
.
Functionally equivalent to
int oldState = getFeatureMask();
int newState = (oldState & ~mask) | (values & mask);
setFeatureMask(newState);
but preferred as this lets caller more efficiently specify actual changes made.
Params: - values – Bit mask of set/clear state for features to change
- mask – Bit mask of features to change
Since: 2.6
/**
* Bulk set method for (re)setting states of features specified by <code>mask</code>.
* Functionally equivalent to
*<code>
* int oldState = getFeatureMask();
* int newState = (oldState & ~mask) | (values & mask);
* setFeatureMask(newState);
*</code>
* but preferred as this lets caller more efficiently specify actual changes made.
*
* @param values Bit mask of set/clear state for features to change
* @param mask Bit mask of features to change
*
* @since 2.6
*/
public JsonGenerator overrideStdFeatures(int values, int mask) {
int oldState = getFeatureMask();
int newState = (oldState & ~mask) | (values & mask);
return setFeatureMask(newState);
}
Bulk access method for getting state of all FormatFeature
s, format-specific on/off configuration settings. Returns: Bit mask that defines current states of all standard FormatFeature
s. Since: 2.6
/**
* Bulk access method for getting state of all {@link FormatFeature}s, format-specific
* on/off configuration settings.
*
* @return Bit mask that defines current states of all standard {@link FormatFeature}s.
*
* @since 2.6
*/
public int getFormatFeatures() {
return 0;
}
Bulk set method for (re)setting states of FormatFeature
s, by specifying values (set / clear) along with a mask, to determine which features to change, if any. Default implementation will simply throw an exception to indicate that the generator implementation does not support any FormatFeature
s.
Params: - values – Bit mask of set/clear state for features to change
- mask – Bit mask of features to change
Since: 2.6
/**
* Bulk set method for (re)setting states of {@link FormatFeature}s,
* by specifying values (set / clear) along with a mask, to determine
* which features to change, if any.
*<p>
* Default implementation will simply throw an exception to indicate that
* the generator implementation does not support any {@link FormatFeature}s.
*
* @param values Bit mask of set/clear state for features to change
* @param mask Bit mask of features to change
*
* @since 2.6
*/
public JsonGenerator overrideFormatFeatures(int values, int mask) {
// 08-Oct-2018, tatu: For 2.10 we actually do get `JsonWriteFeature`s, although they
// are (for 2.x only, not for 3.x) mapper to legacy settings. So do not freak out:
// throw new IllegalArgumentException("No FormatFeatures defined for generator of type "+getClass().getName());
return this;
}
/*
/**********************************************************
/* Public API, Schema configuration
/**********************************************************
*/
Method to call to make this generator use specified schema.
Method must be called before generating any content, right after instance
has been created.
Note that not all generators support schemas; and those that do usually only
accept specific types of schemas: ones defined for data format this generator
produces.
If generator does not support specified schema, UnsupportedOperationException
is thrown.
Params: - schema – Schema to use
Throws: - UnsupportedOperationException – if generator does not support schema
/**
* Method to call to make this generator use specified schema.
* Method must be called before generating any content, right after instance
* has been created.
* Note that not all generators support schemas; and those that do usually only
* accept specific types of schemas: ones defined for data format this generator
* produces.
*<p>
* If generator does not support specified schema, {@link UnsupportedOperationException}
* is thrown.
*
* @param schema Schema to use
*
* @throws UnsupportedOperationException if generator does not support schema
*/
public void setSchema(FormatSchema schema) {
throw new UnsupportedOperationException(String.format(
"Generator of type %s does not support schema of type '%s'",
getClass().getName(), schema.getSchemaType()));
}
Method for accessing Schema that this parser uses, if any.
Default implementation returns null.
Since: 2.1
/**
* Method for accessing Schema that this parser uses, if any.
* Default implementation returns null.
*
* @since 2.1
*/
public FormatSchema getSchema() { return null; }
/*
/**********************************************************
/* Public API, other configuration
/**********************************************************
*/
Method for setting a custom pretty printer, which is usually
used to add indentation for improved human readability.
By default, generator does not do pretty printing.
To use the default pretty printer that comes with core Jackson distribution, call useDefaultPrettyPrinter
instead.
Returns: Generator itself (this), to allow chaining
/**
* Method for setting a custom pretty printer, which is usually
* used to add indentation for improved human readability.
* By default, generator does not do pretty printing.
*<p>
* To use the default pretty printer that comes with core
* Jackson distribution, call {@link #useDefaultPrettyPrinter}
* instead.
*
* @return Generator itself (this), to allow chaining
*/
public JsonGenerator setPrettyPrinter(PrettyPrinter pp) {
_cfgPrettyPrinter = pp;
return this;
}
Accessor for checking whether this generator has a configured PrettyPrinter
; returns it if so, null if none configured. Since: 2.1
/**
* Accessor for checking whether this generator has a configured
* {@link PrettyPrinter}; returns it if so, null if none configured.
*
* @since 2.1
*/
public PrettyPrinter getPrettyPrinter() {
return _cfgPrettyPrinter;
}
Convenience method for enabling pretty-printing using the default pretty printer (DefaultPrettyPrinter
). Returns: Generator itself (this), to allow chaining
/**
* Convenience method for enabling pretty-printing using
* the default pretty printer
* ({@link com.fasterxml.jackson.core.util.DefaultPrettyPrinter}).
*
* @return Generator itself (this), to allow chaining
*/
public abstract JsonGenerator useDefaultPrettyPrinter();
Method that can be called to request that generator escapes
all character codes above specified code point (if positive value);
or, to not escape any characters except for ones that must be
escaped for the data format (if -1).
To force escaping of all non-ASCII characters, for example,
this method would be called with value of 127.
Note that generators are NOT required to support setting of value
higher than 127, because there are other ways to affect quoting
(or lack thereof) of character codes between 0 and 127.
Not all generators support concept of escaping, either; if so,
calling this method will have no effect.
Default implementation does nothing; sub-classes need to redefine
it according to rules of supported data format.
Params: - charCode – Either -1 to indicate that no additional escaping
is to be done; or highest code point not to escape (meaning higher
ones will be), if positive value.
/**
* Method that can be called to request that generator escapes
* all character codes above specified code point (if positive value);
* or, to not escape any characters except for ones that must be
* escaped for the data format (if -1).
* To force escaping of all non-ASCII characters, for example,
* this method would be called with value of 127.
*<p>
* Note that generators are NOT required to support setting of value
* higher than 127, because there are other ways to affect quoting
* (or lack thereof) of character codes between 0 and 127.
* Not all generators support concept of escaping, either; if so,
* calling this method will have no effect.
*<p>
* Default implementation does nothing; sub-classes need to redefine
* it according to rules of supported data format.
*
* @param charCode Either -1 to indicate that no additional escaping
* is to be done; or highest code point not to escape (meaning higher
* ones will be), if positive value.
*/
public JsonGenerator setHighestNonEscapedChar(int charCode) { return this; }
Accessor method for testing what is the highest unescaped character
configured for this generator. This may be either positive value
(when escaping configuration has been set and is in effect), or
0 to indicate that no additional escaping is in effect.
Some generators may not support additional escaping: for example,
generators for binary formats that do not use escaping should
simply return 0.
Returns: Currently active limitation for highest non-escaped character,
if defined; or 0 to indicate no additional escaping is performed.
/**
* Accessor method for testing what is the highest unescaped character
* configured for this generator. This may be either positive value
* (when escaping configuration has been set and is in effect), or
* 0 to indicate that no additional escaping is in effect.
* Some generators may not support additional escaping: for example,
* generators for binary formats that do not use escaping should
* simply return 0.
*
* @return Currently active limitation for highest non-escaped character,
* if defined; or 0 to indicate no additional escaping is performed.
*/
public int getHighestEscapedChar() { return 0; }
Method for accessing custom escapes factory uses for JsonGenerator
s it creates. /**
* Method for accessing custom escapes factory uses for {@link JsonGenerator}s
* it creates.
*/
public CharacterEscapes getCharacterEscapes() { return null; }
Method for defining custom escapes factory uses for JsonGenerator
s it creates.
Default implementation does nothing and simply returns this instance.
/**
* Method for defining custom escapes factory uses for {@link JsonGenerator}s
* it creates.
*<p>
* Default implementation does nothing and simply returns this instance.
*/
public JsonGenerator setCharacterEscapes(CharacterEscapes esc) { return this; }
Method that allows overriding String used for separating root-level
JSON values (default is single space character)
Default implementation throws UnsupportedOperationException
.
Params: - sep – Separator to use, if any; null means that no separator is
automatically added
Since: 2.1
/**
* Method that allows overriding String used for separating root-level
* JSON values (default is single space character)
*<p>
* Default implementation throws {@link UnsupportedOperationException}.
*
* @param sep Separator to use, if any; null means that no separator is
* automatically added
*
* @since 2.1
*/
public JsonGenerator setRootValueSeparator(SerializableString sep) {
throw new UnsupportedOperationException();
}
/*
/**********************************************************
/* Public API, output state access
/**********************************************************
*/
Method that can be used to get access to object that is used as target for generated output; this is usually either OutputStream
or Writer
, depending on what generator was constructed with. Note that returned value may be null in some cases; including case where implementation does not want to exposed raw source to caller. In cases where output has been decorated, object returned here is the decorated version; this allows some level of interaction between users of generator and decorator object.
In general use of this accessor should be considered as
"last effort", i.e. only used if no other mechanism is applicable.
/**
* Method that can be used to get access to object that is used
* as target for generated output; this is usually either
* {@link OutputStream} or {@link Writer}, depending on what
* generator was constructed with.
* Note that returned value may be null in some cases; including
* case where implementation does not want to exposed raw
* source to caller.
* In cases where output has been decorated, object returned here
* is the decorated version; this allows some level of interaction
* between users of generator and decorator object.
*<p>
* In general use of this accessor should be considered as
* "last effort", i.e. only used if no other mechanism is applicable.
*/
public Object getOutputTarget() {
return null;
}
Method for verifying amount of content that is buffered by generator but not yet flushed to the underlying target (stream, writer), in units (byte, char) that the generator implementation uses for buffering; or -1 if this information is not available. Unit used is often the same as the unit of underlying target (that is, `byte` for OutputStream
, `char` for Writer
), but may differ if buffering is done before encoding. Default JSON-backed implementations do use matching units.
Note: non-JSON implementations will be retrofitted for 2.6 and beyond;
please report if you see -1 (missing override)
Returns: Amount of content buffered in internal units, if amount known and
accessible; -1 if not accessible. Since: 2.6
/**
* Method for verifying amount of content that is buffered by generator
* but not yet flushed to the underlying target (stream, writer),
* in units (byte, char) that the generator implementation uses for buffering;
* or -1 if this information is not available.
* Unit used is often the same as the unit of underlying target (that is,
* `byte` for {@link java.io.OutputStream}, `char` for {@link java.io.Writer}),
* but may differ if buffering is done before encoding.
* Default JSON-backed implementations do use matching units.
*<p>
* Note: non-JSON implementations will be retrofitted for 2.6 and beyond;
* please report if you see -1 (missing override)
*
* @return Amount of content buffered in internal units, if amount known and
* accessible; -1 if not accessible.
*
* @since 2.6
*/
public int getOutputBuffered() {
return -1;
}
Helper method, usually equivalent to:
getOutputContext().getCurrentValue();
Note that "current value" is NOT populated (or used) by Streaming parser;
it is only used by higher-level data-binding functionality.
The reason it is included here is that it can be stored and accessed hierarchically,
and gets passed through data-binding.
Since: 2.5
/**
* Helper method, usually equivalent to:
*<code>
* getOutputContext().getCurrentValue();
*</code>
*<p>
* Note that "current value" is NOT populated (or used) by Streaming parser;
* it is only used by higher-level data-binding functionality.
* The reason it is included here is that it can be stored and accessed hierarchically,
* and gets passed through data-binding.
*
* @since 2.5
*/
public Object getCurrentValue() {
JsonStreamContext ctxt = getOutputContext();
return (ctxt == null) ? null : ctxt.getCurrentValue();
}
Helper method, usually equivalent to:
getOutputContext().setCurrentValue(v);
Since: 2.5
/**
* Helper method, usually equivalent to:
*<code>
* getOutputContext().setCurrentValue(v);
*</code>
*
* @since 2.5
*/
public void setCurrentValue(Object v) {
JsonStreamContext ctxt = getOutputContext();
if (ctxt != null) {
ctxt.setCurrentValue(v);
}
}
/*
/**********************************************************
/* Public API, capability introspection methods
/**********************************************************
*/
Method that can be used to verify that given schema can be used with this generator (using setSchema
). Params: - schema – Schema to check
Returns: True if this generator can use given schema; false if not
/**
* Method that can be used to verify that given schema can be used with
* this generator (using {@link #setSchema}).
*
* @param schema Schema to check
*
* @return True if this generator can use given schema; false if not
*/
public boolean canUseSchema(FormatSchema schema) { return false; }
Introspection method that may be called to see if the underlying
data format supports some kind of Object Ids natively (many do not;
for example, JSON doesn't).
This method must be called prior to calling writeObjectId
or writeObjectRef
.
Default implementation returns false; overridden by data formats
that do support native Object Ids. Caller is expected to either
use a non-native notation (explicit property or such), or fail,
in case it can not use native object ids.
Since: 2.3
/**
* Introspection method that may be called to see if the underlying
* data format supports some kind of Object Ids natively (many do not;
* for example, JSON doesn't).
* This method <b>must</b> be called prior to calling
* {@link #writeObjectId} or {@link #writeObjectRef}.
*<p>
* Default implementation returns false; overridden by data formats
* that do support native Object Ids. Caller is expected to either
* use a non-native notation (explicit property or such), or fail,
* in case it can not use native object ids.
*
* @since 2.3
*/
public boolean canWriteObjectId() { return false; }
Introspection method that may be called to see if the underlying
data format supports some kind of Type Ids natively (many do not;
for example, JSON doesn't).
This method must be called prior to calling writeTypeId
.
Default implementation returns false; overridden by data formats
that do support native Type Ids. Caller is expected to either
use a non-native notation (explicit property or such), or fail,
in case it can not use native type ids.
Since: 2.3
/**
* Introspection method that may be called to see if the underlying
* data format supports some kind of Type Ids natively (many do not;
* for example, JSON doesn't).
* This method <b>must</b> be called prior to calling
* {@link #writeTypeId}.
*<p>
* Default implementation returns false; overridden by data formats
* that do support native Type Ids. Caller is expected to either
* use a non-native notation (explicit property or such), or fail,
* in case it can not use native type ids.
*
* @since 2.3
*/
public boolean canWriteTypeId() { return false; }
Introspection method that may be called to see if the underlying
data format supports "native" binary data; that is, an efficient
output of binary content without encoding.
Default implementation returns false; overridden by data formats
that do support native binary content.
Since: 2.3
/**
* Introspection method that may be called to see if the underlying
* data format supports "native" binary data; that is, an efficient
* output of binary content without encoding.
*<p>
* Default implementation returns false; overridden by data formats
* that do support native binary content.
*
* @since 2.3
*/
public boolean canWriteBinaryNatively() { return false; }
Introspection method to call to check whether it is ok to omit
writing of Object fields or not. Most formats do allow omission,
but certain positional formats (such as CSV) require output of
placeholders, even if no real values are to be emitted.
Since: 2.3
/**
* Introspection method to call to check whether it is ok to omit
* writing of Object fields or not. Most formats do allow omission,
* but certain positional formats (such as CSV) require output of
* placeholders, even if no real values are to be emitted.
*
* @since 2.3
*/
public boolean canOmitFields() { return true; }
Introspection method to call to check whether it is possible to write numbers using writeNumber(String)
using possible custom format, or not. Typically textual formats allow this (and JSON specifically does), whereas binary formats do not allow this (except by writing them as Strings). Usual reason for calling this method is to check whether custom formatting of numbers may be applied by higher-level code (databinding) or not. Since: 2.8
/**
* Introspection method to call to check whether it is possible
* to write numbers using {@link #writeNumber(java.lang.String)}
* using possible custom format, or not. Typically textual formats
* allow this (and JSON specifically does), whereas binary formats
* do not allow this (except by writing them as Strings).
* Usual reason for calling this method is to check whether custom
* formatting of numbers may be applied by higher-level code (databinding)
* or not.
*
* @since 2.8
*/
public boolean canWriteFormattedNumbers() { return false; }
/*
/**********************************************************
/* Public API, write methods, structural
/**********************************************************
*/
Method for writing starting marker of a Array value
(for JSON this is character '['; plus possible white space decoration
if pretty-printing is enabled).
Array values can be written in any context where values
are allowed: meaning everywhere except for when
a field name is expected.
/**
* Method for writing starting marker of a Array value
* (for JSON this is character '['; plus possible white space decoration
* if pretty-printing is enabled).
*<p>
* Array values can be written in any context where values
* are allowed: meaning everywhere except for when
* a field name is expected.
*/
public abstract void writeStartArray() throws IOException;
// TODO: deprecate in 2.11 (remove from 3.0)
Method for writing start marker of an Array value, similar to writeStartArray()
, but also specifying how many elements will be written for the array before calling writeEndArray()
. Default implementation simply calls writeStartArray()
.
Params: - size – Number of elements this array will have: actual number of values written (before matching call to
writeEndArray()
MUST match; generator MAY verify this is the case.
Since: 2.4
/**
* Method for writing start marker of an Array value, similar
* to {@link #writeStartArray()}, but also specifying how many
* elements will be written for the array before calling
* {@link #writeEndArray()}.
*<p>
* Default implementation simply calls {@link #writeStartArray()}.
*
* @param size Number of elements this array will have: actual
* number of values written (before matching call to
* {@link #writeEndArray()} MUST match; generator MAY verify
* this is the case.
*
* @since 2.4
*/
public void writeStartArray(int size) throws IOException {
writeStartArray();
}
Since: 2.10
/**
* @since 2.10
*/
public void writeStartArray(Object forValue) throws IOException {
writeStartArray();
setCurrentValue(forValue);
}
Since: 2.10
/**
* @since 2.10
*/
public void writeStartArray(Object forValue, int size) throws IOException {
writeStartArray(size);
setCurrentValue(forValue);
}
Method for writing closing marker of a JSON Array value
(character ']'; plus possible white space decoration
if pretty-printing is enabled).
Marker can be written if the innermost structured type
is Array.
/**
* Method for writing closing marker of a JSON Array value
* (character ']'; plus possible white space decoration
* if pretty-printing is enabled).
*<p>
* Marker can be written if the innermost structured type
* is Array.
*/
public abstract void writeEndArray() throws IOException;
Method for writing starting marker of an Object value
(character '{'; plus possible white space decoration
if pretty-printing is enabled).
Object values can be written in any context where values
are allowed: meaning everywhere except for when
a field name is expected.
/**
* Method for writing starting marker of an Object value
* (character '{'; plus possible white space decoration
* if pretty-printing is enabled).
*<p>
* Object values can be written in any context where values
* are allowed: meaning everywhere except for when
* a field name is expected.
*/
public abstract void writeStartObject() throws IOException;
Method for writing starting marker of an Object value
to represent the given Java Object value.
Argument is offered as metadata, but more
importantly it should be assigned as the "current value"
for the Object content that gets constructed and initialized.
Object values can be written in any context where values
are allowed: meaning everywhere except for when
a field name is expected.
Since: 2.8
/**
* Method for writing starting marker of an Object value
* to represent the given Java Object value.
* Argument is offered as metadata, but more
* importantly it should be assigned as the "current value"
* for the Object content that gets constructed and initialized.
*<p>
* Object values can be written in any context where values
* are allowed: meaning everywhere except for when
* a field name is expected.
*
* @since 2.8
*/
public void writeStartObject(Object forValue) throws IOException
{
writeStartObject();
setCurrentValue(forValue);
}
Method for writing starting marker of an Object value
to represent the given Java Object value.
Argument is offered as metadata, but more
importantly it should be assigned as the "current value"
for the Object content that gets constructed and initialized.
In addition, caller knows number of key/value pairs ("properties")
that will get written for the Object value: this is relevant for
some format backends (but not, as an example, for JSON).
Object values can be written in any context where values
are allowed: meaning everywhere except for when
a field name is expected.
Since: 2.10
/**
* Method for writing starting marker of an Object value
* to represent the given Java Object value.
* Argument is offered as metadata, but more
* importantly it should be assigned as the "current value"
* for the Object content that gets constructed and initialized.
* In addition, caller knows number of key/value pairs ("properties")
* that will get written for the Object value: this is relevant for
* some format backends (but not, as an example, for JSON).
*<p>
* Object values can be written in any context where values
* are allowed: meaning everywhere except for when
* a field name is expected.
*
* @since 2.10
*/
public void writeStartObject(Object forValue, int size) throws IOException
{
writeStartObject();
setCurrentValue(forValue);
}
Method for writing closing marker of an Object value
(character '}'; plus possible white space decoration
if pretty-printing is enabled).
Marker can be written if the innermost structured type
is Object, and the last written event was either a
complete value, or START-OBJECT marker (see JSON specification
for more details).
/**
* Method for writing closing marker of an Object value
* (character '}'; plus possible white space decoration
* if pretty-printing is enabled).
*<p>
* Marker can be written if the innermost structured type
* is Object, and the last written event was either a
* complete value, or START-OBJECT marker (see JSON specification
* for more details).
*/
public abstract void writeEndObject() throws IOException;
Method for writing a field name (JSON String surrounded by
double quotes: syntactically identical to a JSON String value),
possibly decorated by white space if pretty-printing is enabled.
Field names can only be written in Object context (check out
JSON specification for details), when field name is expected
(field names alternate with values).
/**
* Method for writing a field name (JSON String surrounded by
* double quotes: syntactically identical to a JSON String value),
* possibly decorated by white space if pretty-printing is enabled.
*<p>
* Field names can only be written in Object context (check out
* JSON specification for details), when field name is expected
* (field names alternate with values).
*/
public abstract void writeFieldName(String name) throws IOException;
Method similar to writeFieldName(String)
, main difference being that it may perform better as some of processing (such as quoting of certain characters, or encoding into external encoding if supported by generator) can be done just once and reused for later calls.
Default implementation simple uses unprocessed name container in
serialized String; implementations are strongly encouraged to make
use of more efficient methods argument object has.
/**
* Method similar to {@link #writeFieldName(String)}, main difference
* being that it may perform better as some of processing (such as
* quoting of certain characters, or encoding into external encoding
* if supported by generator) can be done just once and reused for
* later calls.
*<p>
* Default implementation simple uses unprocessed name container in
* serialized String; implementations are strongly encouraged to make
* use of more efficient methods argument object has.
*/
public abstract void writeFieldName(SerializableString name) throws IOException;
Alternative to writeFieldName(String)
that may be used in cases where property key is of numeric type; either where underlying format supports such notion (some binary formats do, unlike JSON), or for convenient conversion into String presentation. Default implementation will simply convert id into String
and call writeFieldName(String)
. Since: 2.8
/**
* Alternative to {@link #writeFieldName(String)} that may be used
* in cases where property key is of numeric type; either where
* underlying format supports such notion (some binary formats do,
* unlike JSON), or for convenient conversion into String presentation.
* Default implementation will simply convert id into <code>String</code>
* and call {@link #writeFieldName(String)}.
*
* @since 2.8
*/
public void writeFieldId(long id) throws IOException {
writeFieldName(Long.toString(id));
}
/*
/**********************************************************
/* Public API, write methods, scalar arrays (2.8)
/**********************************************************
*/
Value write method that can be called to write a single array (sequence of JsonToken.START_ARRAY
, zero or more JsonToken.VALUE_NUMBER_INT
, JsonToken.END_ARRAY
) Params: - array – Array that contains values to write
- offset – Offset of the first element to write, within array
- length – Number of elements in array to write, from `offset` to `offset + len - 1`
Since: 2.8
/**
* Value write method that can be called to write a single
* array (sequence of {@link JsonToken#START_ARRAY}, zero or
* more {@link JsonToken#VALUE_NUMBER_INT}, {@link JsonToken#END_ARRAY})
*
* @since 2.8
*
* @param array Array that contains values to write
* @param offset Offset of the first element to write, within array
* @param length Number of elements in array to write, from `offset` to `offset + len - 1`
*/
public void writeArray(int[] array, int offset, int length) throws IOException
{
if (array == null) {
throw new IllegalArgumentException("null array");
}
_verifyOffsets(array.length, offset, length);
writeStartArray(array, length);
for (int i = offset, end = offset+length; i < end; ++i) {
writeNumber(array[i]);
}
writeEndArray();
}
Value write method that can be called to write a single array (sequence of JsonToken.START_ARRAY
, zero or more JsonToken.VALUE_NUMBER_INT
, JsonToken.END_ARRAY
) Params: - array – Array that contains values to write
- offset – Offset of the first element to write, within array
- length – Number of elements in array to write, from `offset` to `offset + len - 1`
Since: 2.8
/**
* Value write method that can be called to write a single
* array (sequence of {@link JsonToken#START_ARRAY}, zero or
* more {@link JsonToken#VALUE_NUMBER_INT}, {@link JsonToken#END_ARRAY})
*
* @since 2.8
*
* @param array Array that contains values to write
* @param offset Offset of the first element to write, within array
* @param length Number of elements in array to write, from `offset` to `offset + len - 1`
*/
public void writeArray(long[] array, int offset, int length) throws IOException
{
if (array == null) {
throw new IllegalArgumentException("null array");
}
_verifyOffsets(array.length, offset, length);
writeStartArray(array, length);
for (int i = offset, end = offset+length; i < end; ++i) {
writeNumber(array[i]);
}
writeEndArray();
}
Value write method that can be called to write a single array (sequence of JsonToken.START_ARRAY
, zero or more JsonToken.VALUE_NUMBER_FLOAT
, JsonToken.END_ARRAY
) Params: - array – Array that contains values to write
- offset – Offset of the first element to write, within array
- length – Number of elements in array to write, from `offset` to `offset + len - 1`
Since: 2.8
/**
* Value write method that can be called to write a single
* array (sequence of {@link JsonToken#START_ARRAY}, zero or
* more {@link JsonToken#VALUE_NUMBER_FLOAT}, {@link JsonToken#END_ARRAY})
*
* @since 2.8
*
* @param array Array that contains values to write
* @param offset Offset of the first element to write, within array
* @param length Number of elements in array to write, from `offset` to `offset + len - 1`
*/
public void writeArray(double[] array, int offset, int length) throws IOException
{
if (array == null) {
throw new IllegalArgumentException("null array");
}
_verifyOffsets(array.length, offset, length);
writeStartArray(array, length);
for (int i = offset, end = offset+length; i < end; ++i) {
writeNumber(array[i]);
}
writeEndArray();
}
Value write method that can be called to write a single array (sequence of JsonToken.START_ARRAY
, zero or more JsonToken.VALUE_STRING
, JsonToken.END_ARRAY
) Params: - array – Array that contains values to write
- offset – Offset of the first element to write, within array
- length – Number of elements in array to write, from `offset` to `offset + len - 1`
Since: 2.11
/**
* Value write method that can be called to write a single
* array (sequence of {@link JsonToken#START_ARRAY}, zero or
* more {@link JsonToken#VALUE_STRING}, {@link JsonToken#END_ARRAY})
*
* @since 2.11
*
* @param array Array that contains values to write
* @param offset Offset of the first element to write, within array
* @param length Number of elements in array to write, from `offset` to `offset + len - 1`
*/
public void writeArray(String[] array, int offset, int length) throws IOException
{
if (array == null) {
throw new IllegalArgumentException("null array");
}
_verifyOffsets(array.length, offset, length);
writeStartArray(array, length);
for (int i = offset, end = offset+length; i < end; ++i) {
writeString(array[i]);
}
writeEndArray();
}
/*
/**********************************************************
/* Public API, write methods, text/String values
/**********************************************************
*/
Method for outputting a String value. Depending on context
this means either array element, (object) field value or
a stand alone String; but in all cases, String will be
surrounded in double quotes, and contents will be properly
escaped as required by JSON specification.
/**
* Method for outputting a String value. Depending on context
* this means either array element, (object) field value or
* a stand alone String; but in all cases, String will be
* surrounded in double quotes, and contents will be properly
* escaped as required by JSON specification.
*/
public abstract void writeString(String text) throws IOException;
Method for outputting a String value. Depending on context
this means either array element, (object) field value or
a stand alone String; but in all cases, String will be
surrounded in double quotes, and contents will be properly
escaped as required by JSON specification.
If the reader is null, then write a null.
If len is < 0, then write all contents of the reader.
Otherwise, write only len characters.
Since: 2.9
/**
* Method for outputting a String value. Depending on context
* this means either array element, (object) field value or
* a stand alone String; but in all cases, String will be
* surrounded in double quotes, and contents will be properly
* escaped as required by JSON specification.
* If the reader is null, then write a null.
* If len is < 0, then write all contents of the reader.
* Otherwise, write only len characters.
*
* @since 2.9
*/
public void writeString(Reader reader, int len) throws IOException {
// Let's implement this as "unsupported" to make it easier to add new parser impls
_reportUnsupportedOperation();
}
Method for outputting a String value. Depending on context
this means either array element, (object) field value or
a stand alone String; but in all cases, String will be
surrounded in double quotes, and contents will be properly
escaped as required by JSON specification.
/**
* Method for outputting a String value. Depending on context
* this means either array element, (object) field value or
* a stand alone String; but in all cases, String will be
* surrounded in double quotes, and contents will be properly
* escaped as required by JSON specification.
*/
public abstract void writeString(char[] text, int offset, int len) throws IOException;
Method similar to writeString(String)
, but that takes SerializableString
which can make this potentially more efficient to call as generator may be able to reuse quoted and/or encoded representation. Default implementation just calls writeString(String)
; sub-classes should override it with more efficient implementation if possible.
/**
* Method similar to {@link #writeString(String)}, but that takes
* {@link SerializableString} which can make this potentially
* more efficient to call as generator may be able to reuse
* quoted and/or encoded representation.
*<p>
* Default implementation just calls {@link #writeString(String)};
* sub-classes should override it with more efficient implementation
* if possible.
*/
public abstract void writeString(SerializableString text) throws IOException;
Method similar to writeString(String)
but that takes as its input a UTF-8 encoded String that is to be output as-is, without additional escaping (type of which depends on data format; backslashes for JSON). However, quoting that data format requires (like double-quotes for JSON) will be added around the value if and as necessary. Note that some backends may choose not to support this method: for example, if underlying destination is a Writer
using this method would require UTF-8 decoding. If so, implementation may instead choose to throw a UnsupportedOperationException
due to ineffectiveness of having to decode input.
/**
* Method similar to {@link #writeString(String)} but that takes as
* its input a UTF-8 encoded String that is to be output as-is, without additional
* escaping (type of which depends on data format; backslashes for JSON).
* However, quoting that data format requires (like double-quotes for JSON) will be added
* around the value if and as necessary.
*<p>
* Note that some backends may choose not to support this method: for
* example, if underlying destination is a {@link java.io.Writer}
* using this method would require UTF-8 decoding.
* If so, implementation may instead choose to throw a
* {@link UnsupportedOperationException} due to ineffectiveness
* of having to decode input.
*/
public abstract void writeRawUTF8String(byte[] text, int offset, int length)
throws IOException;
Method similar to writeString(String)
but that takes as its input a UTF-8 encoded String which has not been escaped using whatever
escaping scheme data format requires (for JSON that is backslash-escaping
for control characters and double-quotes; for other formats something else).
This means that textual JSON backends need to check if value needs
JSON escaping, but otherwise can just be copied as is to output.
Also, quoting that data format requires (like double-quotes for JSON) will be added
around the value if and as necessary.
Note that some backends may choose not to support this method: for example, if underlying destination is a Writer
using this method would require UTF-8 decoding. In this case generator implementation may instead choose to throw a UnsupportedOperationException
due to ineffectiveness of having to decode input.
/**
* Method similar to {@link #writeString(String)} but that takes as its input
* a UTF-8 encoded String which has <b>not</b> been escaped using whatever
* escaping scheme data format requires (for JSON that is backslash-escaping
* for control characters and double-quotes; for other formats something else).
* This means that textual JSON backends need to check if value needs
* JSON escaping, but otherwise can just be copied as is to output.
* Also, quoting that data format requires (like double-quotes for JSON) will be added
* around the value if and as necessary.
*<p>
* Note that some backends may choose not to support this method: for
* example, if underlying destination is a {@link java.io.Writer}
* using this method would require UTF-8 decoding.
* In this case
* generator implementation may instead choose to throw a
* {@link UnsupportedOperationException} due to ineffectiveness
* of having to decode input.
*/
public abstract void writeUTF8String(byte[] text, int offset, int length)
throws IOException;
/*
/**********************************************************
/* Public API, write methods, binary/raw content
/**********************************************************
*/
Method that will force generator to copy
input text verbatim with no modifications (including that no escaping is done and no separators are added even if context [array, object] would otherwise require such). If such separators are desired, use writeRawValue(String)
instead. Note that not all generator implementations necessarily support such by-pass methods: those that do not will throw UnsupportedOperationException
.
/**
* Method that will force generator to copy
* input text verbatim with <b>no</b> modifications (including
* that no escaping is done and no separators are added even
* if context [array, object] would otherwise require such).
* If such separators are desired, use
* {@link #writeRawValue(String)} instead.
*<p>
* Note that not all generator implementations necessarily support
* such by-pass methods: those that do not will throw
* {@link UnsupportedOperationException}.
*/
public abstract void writeRaw(String text) throws IOException;
Method that will force generator to copy
input text verbatim with no modifications (including that no escaping is done and no separators are added even if context [array, object] would otherwise require such). If such separators are desired, use writeRawValue(String)
instead. Note that not all generator implementations necessarily support such by-pass methods: those that do not will throw UnsupportedOperationException
.
/**
* Method that will force generator to copy
* input text verbatim with <b>no</b> modifications (including
* that no escaping is done and no separators are added even
* if context [array, object] would otherwise require such).
* If such separators are desired, use
* {@link #writeRawValue(String)} instead.
*<p>
* Note that not all generator implementations necessarily support
* such by-pass methods: those that do not will throw
* {@link UnsupportedOperationException}.
*/
public abstract void writeRaw(String text, int offset, int len) throws IOException;
Method that will force generator to copy
input text verbatim with no modifications (including that no escaping is done and no separators are added even if context [array, object] would otherwise require such). If such separators are desired, use writeRawValue(String)
instead. Note that not all generator implementations necessarily support such by-pass methods: those that do not will throw UnsupportedOperationException
.
/**
* Method that will force generator to copy
* input text verbatim with <b>no</b> modifications (including
* that no escaping is done and no separators are added even
* if context [array, object] would otherwise require such).
* If such separators are desired, use
* {@link #writeRawValue(String)} instead.
*<p>
* Note that not all generator implementations necessarily support
* such by-pass methods: those that do not will throw
* {@link UnsupportedOperationException}.
*/
public abstract void writeRaw(char[] text, int offset, int len) throws IOException;
Method that will force generator to copy
input text verbatim with no modifications (including that no escaping is done and no separators are added even if context [array, object] would otherwise require such). If such separators are desired, use writeRawValue(String)
instead. Note that not all generator implementations necessarily support such by-pass methods: those that do not will throw UnsupportedOperationException
.
/**
* Method that will force generator to copy
* input text verbatim with <b>no</b> modifications (including
* that no escaping is done and no separators are added even
* if context [array, object] would otherwise require such).
* If such separators are desired, use
* {@link #writeRawValue(String)} instead.
*<p>
* Note that not all generator implementations necessarily support
* such by-pass methods: those that do not will throw
* {@link UnsupportedOperationException}.
*/
public abstract void writeRaw(char c) throws IOException;
Method that will force generator to copy
input text verbatim with no modifications (including that no escaping is done and no separators are added even if context [array, object] would otherwise require such). If such separators are desired, use writeRawValue(String)
instead. Note that not all generator implementations necessarily support such by-pass methods: those that do not will throw UnsupportedOperationException
.
The default implementation delegates to writeRaw(String)
; other backends that support raw inclusion of text are encouraged to implement it in more efficient manner (especially if they use UTF-8 encoding).
Since: 2.1
/**
* Method that will force generator to copy
* input text verbatim with <b>no</b> modifications (including
* that no escaping is done and no separators are added even
* if context [array, object] would otherwise require such).
* If such separators are desired, use
* {@link #writeRawValue(String)} instead.
*<p>
* Note that not all generator implementations necessarily support
* such by-pass methods: those that do not will throw
* {@link UnsupportedOperationException}.
*<p>
* The default implementation delegates to {@link #writeRaw(String)};
* other backends that support raw inclusion of text are encouraged
* to implement it in more efficient manner (especially if they
* use UTF-8 encoding).
*
* @since 2.1
*/
// public abstract void writeRaw(SerializableString raw) throws IOException;
public void writeRaw(SerializableString raw) throws IOException {
writeRaw(raw.getValue());
}
Method that will force generator to copy
input text verbatim without any modifications, but assuming
it must constitute a single legal JSON value (number, string,
boolean, null, Array or List). Assuming this, proper separators
are added if and as needed (comma or colon), and generator
state updated to reflect this.
/**
* Method that will force generator to copy
* input text verbatim without any modifications, but assuming
* it must constitute a single legal JSON value (number, string,
* boolean, null, Array or List). Assuming this, proper separators
* are added if and as needed (comma or colon), and generator
* state updated to reflect this.
*/
public abstract void writeRawValue(String text) throws IOException;
public abstract void writeRawValue(String text, int offset, int len) throws IOException;
public abstract void writeRawValue(char[] text, int offset, int len) throws IOException;
Method similar to writeRawValue(String)
, but potentially more efficient as it may be able to use pre-encoded content (similar to writeRaw(SerializableString)
. Since: 2.5
/**
* Method similar to {@link #writeRawValue(String)}, but potentially more
* efficient as it may be able to use pre-encoded content (similar to
* {@link #writeRaw(SerializableString)}.
*
* @since 2.5
*/
public void writeRawValue(SerializableString raw) throws IOException {
writeRawValue(raw.getValue());
}
Method that will output given chunk of binary data as base64
encoded, as a complete String value (surrounded by double quotes).
This method defaults
Note: because JSON Strings can not contain unescaped linefeeds, if linefeeds are included (as per last argument), they must be escaped. This adds overhead for decoding without improving readability. Alternatively if linefeeds are not included, resulting String value may violate the requirement of base64 RFC which mandates line-length of 76 characters and use of linefeeds. However, all JsonParser
implementations are required to accept such "long line base64"; as do typical production-level base64 decoders.
Params: - bv – Base64 variant to use: defines details such as
whether padding is used (and if so, using which character);
what is the maximum line length before adding linefeed,
and also the underlying alphabet to use.
/**
* Method that will output given chunk of binary data as base64
* encoded, as a complete String value (surrounded by double quotes).
* This method defaults
*<p>
* Note: because JSON Strings can not contain unescaped linefeeds,
* if linefeeds are included (as per last argument), they must be
* escaped. This adds overhead for decoding without improving
* readability.
* Alternatively if linefeeds are not included,
* resulting String value may violate the requirement of base64
* RFC which mandates line-length of 76 characters and use of
* linefeeds. However, all {@link JsonParser} implementations
* are required to accept such "long line base64"; as do
* typical production-level base64 decoders.
*
* @param bv Base64 variant to use: defines details such as
* whether padding is used (and if so, using which character);
* what is the maximum line length before adding linefeed,
* and also the underlying alphabet to use.
*/
public abstract void writeBinary(Base64Variant bv,
byte[] data, int offset, int len) throws IOException;
Similar to writeBinary(Base64Variant, byte[], int, int)
, but default to using the Jackson default Base64 variant (which is Base64Variants.MIME_NO_LINEFEEDS
). /**
* Similar to {@link #writeBinary(Base64Variant,byte[],int,int)},
* but default to using the Jackson default Base64 variant
* (which is {@link Base64Variants#MIME_NO_LINEFEEDS}).
*/
public void writeBinary(byte[] data, int offset, int len) throws IOException {
writeBinary(Base64Variants.getDefaultVariant(), data, offset, len);
}
Similar to writeBinary(Base64Variant, byte[], int, int)
, but assumes default to using the Jackson default Base64 variant (which is Base64Variants.MIME_NO_LINEFEEDS
). Also assumes that whole byte array is to be output. /**
* Similar to {@link #writeBinary(Base64Variant,byte[],int,int)},
* but assumes default to using the Jackson default Base64 variant
* (which is {@link Base64Variants#MIME_NO_LINEFEEDS}). Also
* assumes that whole byte array is to be output.
*/
public void writeBinary(byte[] data) throws IOException {
writeBinary(Base64Variants.getDefaultVariant(), data, 0, data.length);
}
Similar to writeBinary(Base64Variant, InputStream, int)
, but assumes default to using the Jackson default Base64 variant (which is Base64Variants.MIME_NO_LINEFEEDS
). Params: - data – InputStream to use for reading binary data to write.
Will not be closed after successful write operation
- dataLength – (optional) number of bytes that will be available;
or -1 to be indicate it is not known. Note that implementations
need not support cases where length is not known in advance; this
depends on underlying data format: JSON output does NOT require length,
other formats may
/**
* Similar to {@link #writeBinary(Base64Variant,InputStream,int)},
* but assumes default to using the Jackson default Base64 variant
* (which is {@link Base64Variants#MIME_NO_LINEFEEDS}).
*
* @param data InputStream to use for reading binary data to write.
* Will not be closed after successful write operation
* @param dataLength (optional) number of bytes that will be available;
* or -1 to be indicate it is not known. Note that implementations
* need not support cases where length is not known in advance; this
* depends on underlying data format: JSON output does NOT require length,
* other formats may
*/
public int writeBinary(InputStream data, int dataLength)
throws IOException {
return writeBinary(Base64Variants.getDefaultVariant(), data, dataLength);
}
Method similar to writeBinary(Base64Variant, byte[], int, int)
, but where input is provided through a stream, allowing for incremental writes without holding the whole input in memory. Params: - bv – Base64 variant to use
- data – InputStream to use for reading binary data to write.
Will not be closed after successful write operation
- dataLength – (optional) number of bytes that will be available;
or -1 to be indicate it is not known.
If a positive length is given,
data
MUST provide at least
that many bytes: if not, an exception will be thrown.
Note that implementations
need not support cases where length is not known in advance; this
depends on underlying data format: JSON output does NOT require length,
other formats may.
Returns: Number of bytes read from data
and written as binary payload Since: 2.1
/**
* Method similar to {@link #writeBinary(Base64Variant,byte[],int,int)},
* but where input is provided through a stream, allowing for incremental
* writes without holding the whole input in memory.
*
* @param bv Base64 variant to use
* @param data InputStream to use for reading binary data to write.
* Will not be closed after successful write operation
* @param dataLength (optional) number of bytes that will be available;
* or -1 to be indicate it is not known.
* If a positive length is given, <code>data</code> MUST provide at least
* that many bytes: if not, an exception will be thrown.
* Note that implementations
* need not support cases where length is not known in advance; this
* depends on underlying data format: JSON output does NOT require length,
* other formats may.
*
* @return Number of bytes read from <code>data</code> and written as binary payload
*
* @since 2.1
*/
public abstract int writeBinary(Base64Variant bv,
InputStream data, int dataLength) throws IOException;
/*
/**********************************************************
/* Public API, write methods, numeric
/**********************************************************
*/
Method for outputting given value as JSON number.
Can be called in any context where a value is expected
(Array value, Object field value, root-level value).
Additional white space may be added around the value
if pretty-printing is enabled.
Params: - v – Number value to write
Since: 2.2
/**
* Method for outputting given value as JSON number.
* Can be called in any context where a value is expected
* (Array value, Object field value, root-level value).
* Additional white space may be added around the value
* if pretty-printing is enabled.
*
* @param v Number value to write
*
* @since 2.2
*/
public void writeNumber(short v) throws IOException { writeNumber((int) v); }
Method for outputting given value as JSON number.
Can be called in any context where a value is expected
(Array value, Object field value, root-level value).
Additional white space may be added around the value
if pretty-printing is enabled.
Params: - v – Number value to write
/**
* Method for outputting given value as JSON number.
* Can be called in any context where a value is expected
* (Array value, Object field value, root-level value).
* Additional white space may be added around the value
* if pretty-printing is enabled.
*
* @param v Number value to write
*/
public abstract void writeNumber(int v) throws IOException;
Method for outputting given value as JSON number.
Can be called in any context where a value is expected
(Array value, Object field value, root-level value).
Additional white space may be added around the value
if pretty-printing is enabled.
Params: - v – Number value to write
/**
* Method for outputting given value as JSON number.
* Can be called in any context where a value is expected
* (Array value, Object field value, root-level value).
* Additional white space may be added around the value
* if pretty-printing is enabled.
*
* @param v Number value to write
*/
public abstract void writeNumber(long v) throws IOException;
Method for outputting given value as JSON number.
Can be called in any context where a value is expected
(Array value, Object field value, root-level value).
Additional white space may be added around the value
if pretty-printing is enabled.
Params: - v – Number value to write
/**
* Method for outputting given value as JSON number.
* Can be called in any context where a value is expected
* (Array value, Object field value, root-level value).
* Additional white space may be added around the value
* if pretty-printing is enabled.
*
* @param v Number value to write
*/
public abstract void writeNumber(BigInteger v) throws IOException;
Method for outputting indicate JSON numeric value.
Can be called in any context where a value is expected
(Array value, Object field value, root-level value).
Additional white space may be added around the value
if pretty-printing is enabled.
Params: - v – Number value to write
/**
* Method for outputting indicate JSON numeric value.
* Can be called in any context where a value is expected
* (Array value, Object field value, root-level value).
* Additional white space may be added around the value
* if pretty-printing is enabled.
*
* @param v Number value to write
*/
public abstract void writeNumber(double v) throws IOException;
Method for outputting indicate JSON numeric value.
Can be called in any context where a value is expected
(Array value, Object field value, root-level value).
Additional white space may be added around the value
if pretty-printing is enabled.
Params: - v – Number value to write
/**
* Method for outputting indicate JSON numeric value.
* Can be called in any context where a value is expected
* (Array value, Object field value, root-level value).
* Additional white space may be added around the value
* if pretty-printing is enabled.
*
* @param v Number value to write
*/
public abstract void writeNumber(float v) throws IOException;
Method for outputting indicate JSON numeric value.
Can be called in any context where a value is expected
(Array value, Object field value, root-level value).
Additional white space may be added around the value
if pretty-printing is enabled.
Params: - v – Number value to write
/**
* Method for outputting indicate JSON numeric value.
* Can be called in any context where a value is expected
* (Array value, Object field value, root-level value).
* Additional white space may be added around the value
* if pretty-printing is enabled.
*
* @param v Number value to write
*/
public abstract void writeNumber(BigDecimal v) throws IOException;
Write method that can be used for custom numeric types that can not be (easily?) converted to "standard" Java number types. Because numbers are not surrounded by double quotes, regular writeString
method can not be used; nor writeRaw
because that does not properly handle value separators needed in Array or Object contexts. Note: because of lack of type safety, some generator implementations may not be able to implement this method. For example, if a binary JSON format is used, it may require type information for encoding; similarly for generator-wrappers around Java objects or JSON nodes. If implementation does not implement this method, it needs to throw UnsupportedOperationException
.
Throws: - UnsupportedOperationException – If underlying data format does not
support numbers serialized textually AND if generator is not allowed
to just output a String instead (Schema-based formats may require actual
number, for example)
/**
* Write method that can be used for custom numeric types that can
* not be (easily?) converted to "standard" Java number types.
* Because numbers are not surrounded by double quotes, regular
* {@link #writeString} method can not be used; nor
* {@link #writeRaw} because that does not properly handle
* value separators needed in Array or Object contexts.
*<p>
* Note: because of lack of type safety, some generator
* implementations may not be able to implement this
* method. For example, if a binary JSON format is used,
* it may require type information for encoding; similarly
* for generator-wrappers around Java objects or JSON nodes.
* If implementation does not implement this method,
* it needs to throw {@link UnsupportedOperationException}.
*
* @throws UnsupportedOperationException If underlying data format does not
* support numbers serialized textually AND if generator is not allowed
* to just output a String instead (Schema-based formats may require actual
* number, for example)
*/
public abstract void writeNumber(String encodedValue) throws IOException;
Overloaded version of writeNumber(String)
with same semantics but possibly more efficient operation. Since: 2.11
/**
* Overloaded version of {@link #writeNumber(String)} with same semantics
* but possibly more efficient operation.
*
* @since 2.11
*/
public void writeNumber(char[] encodedValueBuffer, int offset, int length) throws IOException {
writeNumber(new String(encodedValueBuffer, offset, length));
}
/*
/**********************************************************
/* Public API, write methods, other value types
/**********************************************************
*/
Method for outputting literal JSON boolean value (one of
Strings 'true' and 'false').
Can be called in any context where a value is expected
(Array value, Object field value, root-level value).
Additional white space may be added around the value
if pretty-printing is enabled.
/**
* Method for outputting literal JSON boolean value (one of
* Strings 'true' and 'false').
* Can be called in any context where a value is expected
* (Array value, Object field value, root-level value).
* Additional white space may be added around the value
* if pretty-printing is enabled.
*/
public abstract void writeBoolean(boolean state) throws IOException;
Method for outputting literal JSON null value.
Can be called in any context where a value is expected
(Array value, Object field value, root-level value).
Additional white space may be added around the value
if pretty-printing is enabled.
/**
* Method for outputting literal JSON null value.
* Can be called in any context where a value is expected
* (Array value, Object field value, root-level value).
* Additional white space may be added around the value
* if pretty-printing is enabled.
*/
public abstract void writeNull() throws IOException;
Method that can be called on backends that support passing opaque datatypes of
non-JSON formats
Since: 2.8
/**
* Method that can be called on backends that support passing opaque datatypes of
* non-JSON formats
*
* @since 2.8
*/
public void writeEmbeddedObject(Object object) throws IOException {
// 01-Sep-2016, tatu: As per [core#318], handle small number of cases
if (object == null) {
writeNull();
return;
}
if (object instanceof byte[]) {
writeBinary((byte[]) object);
return;
}
throw new JsonGenerationException("No native support for writing embedded objects of type "
+object.getClass().getName(),
this);
}
/*
/**********************************************************
/* Public API, write methods, Native Ids (type, object)
/**********************************************************
*/
Method that can be called to output so-called native Object Id. Note that it may only be called after ensuring this is legal (with canWriteObjectId()
), as not all data formats have native type id support; and some may only allow them in certain positions or locations. If output is not allowed by the data format in this position, a JsonGenerationException
will be thrown. Since: 2.3
/**
* Method that can be called to output so-called native Object Id.
* Note that it may only be called after ensuring this is legal
* (with {@link #canWriteObjectId()}), as not all data formats
* have native type id support; and some may only allow them in
* certain positions or locations.
* If output is not allowed by the data format in this position,
* a {@link JsonGenerationException} will be thrown.
*
* @since 2.3
*/
public void writeObjectId(Object id) throws IOException {
throw new JsonGenerationException("No native support for writing Object Ids", this);
}
Method that can be called to output references to native Object Ids. Note that it may only be called after ensuring this is legal (with canWriteObjectId()
), as not all data formats have native type id support; and some may only allow them in certain positions or locations. If output is not allowed by the data format in this position, a JsonGenerationException
will be thrown. /**
* Method that can be called to output references to native Object Ids.
* Note that it may only be called after ensuring this is legal
* (with {@link #canWriteObjectId()}), as not all data formats
* have native type id support; and some may only allow them in
* certain positions or locations.
* If output is not allowed by the data format in this position,
* a {@link JsonGenerationException} will be thrown.
*/
public void writeObjectRef(Object id) throws IOException {
throw new JsonGenerationException("No native support for writing Object Ids", this);
}
Method that can be called to output so-called native Type Id. Note that it may only be called after ensuring this is legal (with canWriteTypeId()
), as not all data formats have native type id support; and some may only allow them in certain positions or locations. If output is not allowed by the data format in this position, a JsonGenerationException
will be thrown. Since: 2.3
/**
* Method that can be called to output so-called native Type Id.
* Note that it may only be called after ensuring this is legal
* (with {@link #canWriteTypeId()}), as not all data formats
* have native type id support; and some may only allow them in
* certain positions or locations.
* If output is not allowed by the data format in this position,
* a {@link JsonGenerationException} will be thrown.
*
* @since 2.3
*/
public void writeTypeId(Object id) throws IOException {
throw new JsonGenerationException("No native support for writing Type Ids", this);
}
/*
* Replacement method for {@link #writeTypeId(Object)} which is called
* regardless of whether format has native type ids. If it does have native
* type ids, those are to be used (if configuration allows this), if not,
* structural type id inclusion is to be used. For JSON, for example, no
* native type ids exist and structural inclusion is always used.
*<p>
* NOTE: databind may choose to skip calling this method for some special cases
* (and instead included type id via regular write methods and/or {@link #writeTypeId}
* -- this is discouraged, but not illegal, and may be necessary as a work-around
* in some cases.
*
* @since 2.9
*/
public WritableTypeId writeTypePrefix(WritableTypeId typeIdDef) throws IOException
{
Object id = typeIdDef.id;
final JsonToken valueShape = typeIdDef.valueShape;
if (canWriteTypeId()) {
typeIdDef.wrapperWritten = false;
// just rely on native type output method (sub-classes likely to override)
writeTypeId(id);
} else {
// No native type id; write wrappers
// Normally we only support String type ids (non-String reserved for native type ids)
String idStr = (id instanceof String) ? (String) id : String.valueOf(id);
typeIdDef.wrapperWritten = true;
Inclusion incl = typeIdDef.include;
// first: can not output "as property" if value not Object; if so, must do "as array"
if ((valueShape != JsonToken.START_OBJECT)
&& incl.requiresObjectContext()) {
typeIdDef.include = incl = WritableTypeId.Inclusion.WRAPPER_ARRAY;
}
switch (incl) {
case PARENT_PROPERTY:
// nothing to do here, as it has to be written in suffix...
break;
case PAYLOAD_PROPERTY:
// only output as native type id; otherwise caller must handle using some
// other mechanism, so...
break;
case METADATA_PROPERTY:
// must have Object context by now, so simply write as field name
// Note, too, that it's bit tricky, since we must print START_OBJECT that is part
// of value first -- and then NOT output it later on: hence return "early"
writeStartObject(typeIdDef.forValue);
writeStringField(typeIdDef.asProperty, idStr);
return typeIdDef;
case WRAPPER_OBJECT:
// NOTE: this is wrapper, not directly related to value to output, so don't pass
writeStartObject();
writeFieldName(idStr);
break;
case WRAPPER_ARRAY:
default: // should never occur but translate as "as-array"
writeStartArray(); // wrapper, not actual array object to write
writeString(idStr);
}
}
// and finally possible start marker for value itself:
if (valueShape == JsonToken.START_OBJECT) {
writeStartObject(typeIdDef.forValue);
} else if (valueShape == JsonToken.START_ARRAY) {
// should we now set the current object?
writeStartArray();
}
return typeIdDef;
}
/*
* @since 2.9
*/
public WritableTypeId writeTypeSuffix(WritableTypeId typeIdDef) throws IOException
{
final JsonToken valueShape = typeIdDef.valueShape;
// First: does value need closing?
if (valueShape == JsonToken.START_OBJECT) {
writeEndObject();
} else if (valueShape == JsonToken.START_ARRAY) {
writeEndArray();
}
if (typeIdDef.wrapperWritten) {
switch (typeIdDef.include) {
case WRAPPER_ARRAY:
writeEndArray();
break;
case PARENT_PROPERTY:
// unusually, need to output AFTER value. And no real wrapper...
{
Object id = typeIdDef.id;
String idStr = (id instanceof String) ? (String) id : String.valueOf(id);
writeStringField(typeIdDef.asProperty, idStr);
}
break;
case METADATA_PROPERTY:
case PAYLOAD_PROPERTY:
// no actual wrapper; included within Object itself
break;
case WRAPPER_OBJECT:
default: // should never occur but...
writeEndObject();
break;
}
}
return typeIdDef;
}
/*
/**********************************************************
/* Public API, write methods, serializing Java objects
/**********************************************************
*/
Method for writing given Java object (POJO) as Json.
Exactly how the object gets written depends on object
in question (ad on codec, its configuration); for most
beans it will result in JSON Object, but for others JSON
Array, or String or numeric value (and for nulls, JSON
null literal.
NOTE: generator must have its object codec
set to non-null value; for generators created by a mapping
factory this is the case, for others not.
/**
* Method for writing given Java object (POJO) as Json.
* Exactly how the object gets written depends on object
* in question (ad on codec, its configuration); for most
* beans it will result in JSON Object, but for others JSON
* Array, or String or numeric value (and for nulls, JSON
* null literal.
* <b>NOTE</b>: generator must have its <b>object codec</b>
* set to non-null value; for generators created by a mapping
* factory this is the case, for others not.
*/
public abstract void writeObject(Object pojo) throws IOException;
Method for writing given JSON tree (expressed as a tree where given JsonNode is the root) using this generator. This will generally just call writeObject
with given node, but is added for convenience and to make code more explicit in cases where it deals specifically with trees. /**
* Method for writing given JSON tree (expressed as a tree
* where given JsonNode is the root) using this generator.
* This will generally just call
* {@link #writeObject} with given node, but is added
* for convenience and to make code more explicit in cases
* where it deals specifically with trees.
*/
public abstract void writeTree(TreeNode rootNode) throws IOException;
/*
/**********************************************************
/* Public API, convenience field write methods
/**********************************************************
*/
// 04-Oct-2019, tatu: Reminder: these could be defined final to
// remember NOT to override in delegating sub-classes -- but
// not final in 2.x to reduce compatibility issues
Convenience method for outputting a field entry ("member")
that contains specified data in base64-encoded form.
Equivalent to:
writeFieldName(fieldName);
writeBinary(value);
/**
* Convenience method for outputting a field entry ("member")
* that contains specified data in base64-encoded form.
* Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeBinary(value);
*</pre>
*/
public void writeBinaryField(String fieldName, byte[] data) throws IOException {
writeFieldName(fieldName);
writeBinary(data);
}
Convenience method for outputting a field entry ("member")
that has a boolean value. Equivalent to:
writeFieldName(fieldName);
writeBoolean(value);
/**
* Convenience method for outputting a field entry ("member")
* that has a boolean value. Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeBoolean(value);
*</pre>
*/
public void writeBooleanField(String fieldName, boolean value) throws IOException {
writeFieldName(fieldName);
writeBoolean(value);
}
Convenience method for outputting a field entry ("member")
that has JSON literal value null. Equivalent to:
writeFieldName(fieldName);
writeNull();
/**
* Convenience method for outputting a field entry ("member")
* that has JSON literal value null. Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeNull();
*</pre>
*/
public void writeNullField(String fieldName) throws IOException {
writeFieldName(fieldName);
writeNull();
}
Convenience method for outputting a field entry ("member")
that has a String value. Equivalent to:
writeFieldName(fieldName);
writeString(value);
Note: many performance-sensitive implementations override this method
/**
* Convenience method for outputting a field entry ("member")
* that has a String value. Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeString(value);
*</pre>
*<p>
* Note: many performance-sensitive implementations override this method
*/
public void writeStringField(String fieldName, String value) throws IOException {
writeFieldName(fieldName);
writeString(value);
}
Convenience method for outputting a field entry ("member")
that has the specified numeric value. Equivalent to:
writeFieldName(fieldName);
writeNumber(value);
Since: 2.11
/**
* Convenience method for outputting a field entry ("member")
* that has the specified numeric value. Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeNumber(value);
*</pre>
*
* @since 2.11
*/
public void writeNumberField(String fieldName, short value) throws IOException {
writeFieldName(fieldName);
writeNumber(value);
}
Convenience method for outputting a field entry ("member")
that has the specified numeric value. Equivalent to:
writeFieldName(fieldName);
writeNumber(value);
/**
* Convenience method for outputting a field entry ("member")
* that has the specified numeric value. Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeNumber(value);
*</pre>
*/
public void writeNumberField(String fieldName, int value) throws IOException {
writeFieldName(fieldName);
writeNumber(value);
}
Convenience method for outputting a field entry ("member")
that has the specified numeric value. Equivalent to:
writeFieldName(fieldName);
writeNumber(value);
/**
* Convenience method for outputting a field entry ("member")
* that has the specified numeric value. Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeNumber(value);
*</pre>
*/
public void writeNumberField(String fieldName, long value) throws IOException {
writeFieldName(fieldName);
writeNumber(value);
}
Convenience method for outputting a field entry ("member")
that has the specified numeric value. Equivalent to:
writeFieldName(fieldName);
writeNumber(value);
Since: 2.11
/**
* Convenience method for outputting a field entry ("member")
* that has the specified numeric value. Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeNumber(value);
*</pre>
*
* @since 2.11
*/
public void writeNumberField(String fieldName, BigInteger value) throws IOException {
writeFieldName(fieldName);
writeNumber(value);
}
Convenience method for outputting a field entry ("member")
that has the specified numeric value. Equivalent to:
writeFieldName(fieldName);
writeNumber(value);
/**
* Convenience method for outputting a field entry ("member")
* that has the specified numeric value. Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeNumber(value);
*</pre>
*/
public void writeNumberField(String fieldName, float value) throws IOException {
writeFieldName(fieldName);
writeNumber(value);
}
Convenience method for outputting a field entry ("member")
that has the specified numeric value. Equivalent to:
writeFieldName(fieldName);
writeNumber(value);
/**
* Convenience method for outputting a field entry ("member")
* that has the specified numeric value. Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeNumber(value);
*</pre>
*/
public void writeNumberField(String fieldName, double value) throws IOException {
writeFieldName(fieldName);
writeNumber(value);
}
Convenience method for outputting a field entry ("member")
that has the specified numeric value.
Equivalent to:
writeFieldName(fieldName);
writeNumber(value);
/**
* Convenience method for outputting a field entry ("member")
* that has the specified numeric value.
* Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeNumber(value);
*</pre>
*/
public void writeNumberField(String fieldName, BigDecimal value) throws IOException {
writeFieldName(fieldName);
writeNumber(value);
}
Convenience method for outputting a field entry ("member")
(that will contain a JSON Array value), and the START_ARRAY marker.
Equivalent to:
writeFieldName(fieldName);
writeStartArray();
Note: caller still has to take care to close the array
(by calling {#link #writeEndArray}) after writing all values
of the value Array.
/**
* Convenience method for outputting a field entry ("member")
* (that will contain a JSON Array value), and the START_ARRAY marker.
* Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeStartArray();
*</pre>
*<p>
* Note: caller still has to take care to close the array
* (by calling {#link #writeEndArray}) after writing all values
* of the value Array.
*/
public void writeArrayFieldStart(String fieldName) throws IOException {
writeFieldName(fieldName);
writeStartArray();
}
Convenience method for outputting a field entry ("member")
(that will contain an Object value), and the START_OBJECT marker.
Equivalent to:
writeFieldName(fieldName);
writeStartObject();
Note: caller still has to take care to close the Object
(by calling {#link #writeEndObject}) after writing all
entries of the value Object.
/**
* Convenience method for outputting a field entry ("member")
* (that will contain an Object value), and the START_OBJECT marker.
* Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeStartObject();
*</pre>
*<p>
* Note: caller still has to take care to close the Object
* (by calling {#link #writeEndObject}) after writing all
* entries of the value Object.
*/
public void writeObjectFieldStart(String fieldName) throws IOException {
writeFieldName(fieldName);
writeStartObject();
}
Convenience method for outputting a field entry ("member")
that has contents of specific Java object as its value.
Equivalent to:
writeFieldName(fieldName);
writeObject(pojo);
/**
* Convenience method for outputting a field entry ("member")
* that has contents of specific Java object as its value.
* Equivalent to:
*<pre>
* writeFieldName(fieldName);
* writeObject(pojo);
*</pre>
*/
public void writeObjectField(String fieldName, Object pojo) throws IOException {
writeFieldName(fieldName);
writeObject(pojo);
}
// // // But this method does need to be delegate so...
Method called to indicate that a property in this position was
skipped. It is usually only called for generators that return
false
from canOmitFields()
.
Default implementation does nothing.
Since: 2.3
/**
* Method called to indicate that a property in this position was
* skipped. It is usually only called for generators that return
* <code>false</code> from {@link #canOmitFields()}.
*<p>
* Default implementation does nothing.
*
* @since 2.3
*/
public void writeOmittedField(String fieldName) throws IOException { }
/*
/**********************************************************
/* Public API, copy-through methods
/**********************************************************
*/
Method for copying contents of the current event that
the given parser instance points to.
Note that the method will not copy any other events,
such as events contained within JSON Array or Object structures.
Calling this method will not advance the given
parser, although it may cause parser to internally process
more data (if it lazy loads contents of value events, for example)
/**
* Method for copying contents of the current event that
* the given parser instance points to.
* Note that the method <b>will not</b> copy any other events,
* such as events contained within JSON Array or Object structures.
*<p>
* Calling this method will not advance the given
* parser, although it may cause parser to internally process
* more data (if it lazy loads contents of value events, for example)
*/
public void copyCurrentEvent(JsonParser p) throws IOException
{
JsonToken t = p.currentToken();
final int token = (t == null) ? ID_NOT_AVAILABLE : t.id();
switch (token) {
case ID_NOT_AVAILABLE:
_reportError("No current event to copy");
break; // never gets here
case ID_START_OBJECT:
writeStartObject();
break;
case ID_END_OBJECT:
writeEndObject();
break;
case ID_START_ARRAY:
writeStartArray();
break;
case ID_END_ARRAY:
writeEndArray();
break;
case ID_FIELD_NAME:
writeFieldName(p.getCurrentName());
break;
case ID_STRING:
if (p.hasTextCharacters()) {
writeString(p.getTextCharacters(), p.getTextOffset(), p.getTextLength());
} else {
writeString(p.getText());
}
break;
case ID_NUMBER_INT:
{
NumberType n = p.getNumberType();
if (n == NumberType.INT) {
writeNumber(p.getIntValue());
} else if (n == NumberType.BIG_INTEGER) {
writeNumber(p.getBigIntegerValue());
} else {
writeNumber(p.getLongValue());
}
break;
}
case ID_NUMBER_FLOAT:
{
NumberType n = p.getNumberType();
if (n == NumberType.BIG_DECIMAL) {
writeNumber(p.getDecimalValue());
} else if (n == NumberType.FLOAT) {
writeNumber(p.getFloatValue());
} else {
writeNumber(p.getDoubleValue());
}
break;
}
case ID_TRUE:
writeBoolean(true);
break;
case ID_FALSE:
writeBoolean(false);
break;
case ID_NULL:
writeNull();
break;
case ID_EMBEDDED_OBJECT:
writeObject(p.getEmbeddedObject());
break;
default:
throw new IllegalStateException("Internal error: unknown current token, "+t);
}
}
Method for copying contents of the current event
and following events that it encloses
the given parser instance points to.
So what constitutes enclosing? Here is the list of
events that have associated enclosed events that will
get copied:
JsonToken.START_OBJECT
: all events up to and including matching (closing) JsonToken.END_OBJECT
will be copied
JsonToken.START_ARRAY
all events up to and including matching (closing) JsonToken.END_ARRAY
will be copied
JsonToken.FIELD_NAME
the logical value (which can consist of a single scalar value; or a sequence of related events for structured types (JSON Arrays, Objects)) will be copied along with the name itself. So essentially the whole field entry (name and value) will be copied.
After calling this method, parser will point to the
last event that was copied. This will either be
the event parser already pointed to (if there were no
enclosed events), or the last enclosed event copied.
/**
* Method for copying contents of the current event
* <b>and following events that it encloses</b>
* the given parser instance points to.
*<p>
* So what constitutes enclosing? Here is the list of
* events that have associated enclosed events that will
* get copied:
*<ul>
* <li>{@link JsonToken#START_OBJECT}:
* all events up to and including matching (closing)
* {@link JsonToken#END_OBJECT} will be copied
* </li>
* <li>{@link JsonToken#START_ARRAY}
* all events up to and including matching (closing)
* {@link JsonToken#END_ARRAY} will be copied
* </li>
* <li>{@link JsonToken#FIELD_NAME} the logical value (which
* can consist of a single scalar value; or a sequence of related
* events for structured types (JSON Arrays, Objects)) will
* be copied along with the name itself. So essentially the
* whole <b>field entry</b> (name and value) will be copied.
* </li>
*</ul>
*<p>
* After calling this method, parser will point to the
* <b>last event</b> that was copied. This will either be
* the event parser already pointed to (if there were no
* enclosed events), or the last enclosed event copied.
*/
public void copyCurrentStructure(JsonParser p) throws IOException
{
JsonToken t = p.currentToken();
// Let's handle field-name separately first
int id = (t == null) ? ID_NOT_AVAILABLE : t.id();
if (id == ID_FIELD_NAME) {
writeFieldName(p.getCurrentName());
t = p.nextToken();
id = (t == null) ? ID_NOT_AVAILABLE : t.id();
// fall-through to copy the associated value
}
switch (id) {
case ID_START_OBJECT:
writeStartObject();
_copyCurrentContents(p);
return;
case ID_START_ARRAY:
writeStartArray();
_copyCurrentContents(p);
return;
default:
copyCurrentEvent(p);
}
}
Since: 2.10
/**
* @since 2.10
*/
protected void _copyCurrentContents(JsonParser p) throws IOException
{
int depth = 1;
JsonToken t;
// Mostly copied from `copyCurrentEvent()`, but with added nesting counts
while ((t = p.nextToken()) != null) {
switch (t.id()) {
case ID_FIELD_NAME:
writeFieldName(p.getCurrentName());
break;
case ID_START_ARRAY:
writeStartArray();
++depth;
break;
case ID_START_OBJECT:
writeStartObject();
++depth;
break;
case ID_END_ARRAY:
writeEndArray();
if (--depth == 0) {
return;
}
break;
case ID_END_OBJECT:
writeEndObject();
if (--depth == 0) {
return;
}
break;
case ID_STRING:
if (p.hasTextCharacters()) {
writeString(p.getTextCharacters(), p.getTextOffset(), p.getTextLength());
} else {
writeString(p.getText());
}
break;
case ID_NUMBER_INT:
{
NumberType n = p.getNumberType();
if (n == NumberType.INT) {
writeNumber(p.getIntValue());
} else if (n == NumberType.BIG_INTEGER) {
writeNumber(p.getBigIntegerValue());
} else {
writeNumber(p.getLongValue());
}
break;
}
case ID_NUMBER_FLOAT:
{
NumberType n = p.getNumberType();
if (n == NumberType.BIG_DECIMAL) {
writeNumber(p.getDecimalValue());
} else if (n == NumberType.FLOAT) {
writeNumber(p.getFloatValue());
} else {
writeNumber(p.getDoubleValue());
}
break;
}
case ID_TRUE:
writeBoolean(true);
break;
case ID_FALSE:
writeBoolean(false);
break;
case ID_NULL:
writeNull();
break;
case ID_EMBEDDED_OBJECT:
writeObject(p.getEmbeddedObject());
break;
default:
throw new IllegalStateException("Internal error: unknown current token, "+t);
}
}
}
/*
/**********************************************************
/* Public API, context access
/**********************************************************
*/
Returns: Context object that can give information about logical
position within generated json content.
/**
* @return Context object that can give information about logical
* position within generated json content.
*/
public abstract JsonStreamContext getOutputContext();
/*
/**********************************************************
/* Public API, buffer handling
/**********************************************************
*/
Method called to flush any buffered content to the underlying
target (output stream, writer), and to flush the target itself
as well.
/**
* Method called to flush any buffered content to the underlying
* target (output stream, writer), and to flush the target itself
* as well.
*/
@Override
public abstract void flush() throws IOException;
Method that can be called to determine whether this generator
is closed or not. If it is closed, no more output can be done.
/**
* Method that can be called to determine whether this generator
* is closed or not. If it is closed, no more output can be done.
*/
public abstract boolean isClosed();
/*
/**********************************************************
/* Closeable implementation
/**********************************************************
*/
Method called to close this generator, so that no more content
can be written.
Whether the underlying target (stream, writer) gets closed depends on whether this generator either manages the target (i.e. is the only one with access to the target -- case if caller passes a reference to the resource such as File, but not stream); or has feature Feature.AUTO_CLOSE_TARGET
enabled. If either of above is true, the target is also closed. Otherwise (not managing, feature not enabled), target is not closed.
/**
* Method called to close this generator, so that no more content
* can be written.
*<p>
* Whether the underlying target (stream, writer) gets closed depends
* on whether this generator either manages the target (i.e. is the
* only one with access to the target -- case if caller passes a
* reference to the resource such as File, but not stream); or
* has feature {@link Feature#AUTO_CLOSE_TARGET} enabled.
* If either of above is true, the target is also closed. Otherwise
* (not managing, feature not enabled), target is not closed.
*/
@Override
public abstract void close() throws IOException;
/*
/**********************************************************
/* Helper methods for sub-classes
/**********************************************************
*/
Helper method used for constructing and throwing JsonGenerationException
with given base message. Note that sub-classes may override this method to add more detail or use a JsonGenerationException
sub-class.
/**
* Helper method used for constructing and throwing
* {@link JsonGenerationException} with given base message.
*<p>
* Note that sub-classes may override this method to add more detail
* or use a {@link JsonGenerationException} sub-class.
*/
protected void _reportError(String msg) throws JsonGenerationException {
throw new JsonGenerationException(msg, this);
}
protected final void _throwInternal() { VersionUtil.throwInternal(); }
protected void _reportUnsupportedOperation() {
throw new UnsupportedOperationException("Operation not supported by generator of type "+getClass().getName());
}
Since: 2.8
/**
* @since 2.8
*/
protected final void _verifyOffsets(int arrayLength, int offset, int length)
{
if ((offset < 0) || (offset + length) > arrayLength) {
throw new IllegalArgumentException(String.format(
"invalid argument(s) (offset=%d, length=%d) for input array of %d element",
offset, length, arrayLength));
}
}
Helper method to try to call appropriate write method for given
untyped Object. At this point, no structural conversions should be done,
only simple basic types are to be coerced as necessary.
Params: - value – Non-null value to write
/**
* Helper method to try to call appropriate write method for given
* untyped Object. At this point, no structural conversions should be done,
* only simple basic types are to be coerced as necessary.
*
* @param value Non-null value to write
*/
protected void _writeSimpleObject(Object value) throws IOException
{
// 31-Dec-2009, tatu: Actually, we could just handle some basic
// types even without codec. This can improve interoperability,
// and specifically help with TokenBuffer.
if (value == null) {
writeNull();
return;
}
if (value instanceof String) {
writeString((String) value);
return;
}
if (value instanceof Number) {
Number n = (Number) value;
if (n instanceof Integer) {
writeNumber(n.intValue());
return;
} else if (n instanceof Long) {
writeNumber(n.longValue());
return;
} else if (n instanceof Double) {
writeNumber(n.doubleValue());
return;
} else if (n instanceof Float) {
writeNumber(n.floatValue());
return;
} else if (n instanceof Short) {
writeNumber(n.shortValue());
return;
} else if (n instanceof Byte) {
writeNumber(n.byteValue());
return;
} else if (n instanceof BigInteger) {
writeNumber((BigInteger) n);
return;
} else if (n instanceof BigDecimal) {
writeNumber((BigDecimal) n);
return;
// then Atomic types
} else if (n instanceof AtomicInteger) {
writeNumber(((AtomicInteger) n).get());
return;
} else if (n instanceof AtomicLong) {
writeNumber(((AtomicLong) n).get());
return;
}
} else if (value instanceof byte[]) {
writeBinary((byte[]) value);
return;
} else if (value instanceof Boolean) {
writeBoolean((Boolean) value);
return;
} else if (value instanceof AtomicBoolean) {
writeBoolean(((AtomicBoolean) value).get());
return;
}
throw new IllegalStateException("No ObjectCodec defined for the generator, can only serialize simple wrapper types (type passed "
+value.getClass().getName()+")");
}
}