public class VocabURIShortIV<V extends BigdataURI> extends AbstractInlineIV<V,Short> implements org.openrdf.model.URI
short
code.
The flags byte looks like: VTE=URI, inline=true, extension=false,
DTE=XSDShort
. It is followed by an unsigned short
value
which is the index of the URI in the Vocabulary
class for the triple
store.flags
Constructor and Description |
---|
VocabURIShortIV(short value) |
Modifier and Type | Method and Description |
---|---|
int |
_compareTo(IV o)
Compare two
IV s having the same intrinsic datatype. |
V |
asValue(LexiconRelation lex)
If the value is not already cached, then inflate an inline RDF value to a
BigdataValue and cache it on a private field. |
int |
byteLength()
The byte length of the encoded
IV . |
IV<V,Short> |
clone(boolean clearCache)
Return a copy of this
IV . |
boolean |
equals(Object o)
Return true iff the two
IV s are the same point in the same value
space. |
Short |
getInlineValue()
Return the Java
Object corresponding to the inline value. |
String |
getLocalName()
Implements
URI.getLocalName() . |
String |
getNamespace()
Implements
URI.getNamespace() . |
int |
hashCode()
Return the hash code of the short value.
|
boolean |
isVocabulary()
|
boolean |
needsMaterialization()
Because we only store an index into the vocabulary, we need the
materialized URI to answer the URI interface methods.
|
String |
stringValue()
Implements
Value.stringValue() . |
String |
toString() |
isInline
compareTo, encode, flags, getDTE, getDTE, getDTEX, getInternalValueTypeEnum, getValue, getValueCache, getVTE, getVTE, hasValue, isBigNumeric, isBNode, isExtension, isExtension, isFixedNumeric, isFloatingPointNumeric, isInline, isLiteral, isNullIV, isNumeric, isResource, isSignedNumeric, isStatement, isUnsignedNumeric, isURI, setValue, toFlags
public IV<V,Short> clone(boolean clearCache)
IV
.
Note: This method exists to defeat the hard reference from the IV
to the cached BigdataValue
in order to avoid a memory leak when
the IV
is used as the key in a weak value cache whose value is
the BigdataValue
. Therefore, certain IV
implementations
MAY return this when they are used for limited collections. The
vocabulary IVs are the primary example. For the same reason, we do not
need to recursively break the link from the IV
to the
BigdataValue
for IV
s which embed other IV
s.
Note: Always returns this. (The rationale is that the vocabulary
IV
s already pin their cached value so there is no point in
creating a clone with the cleared cache reference.)
clone
in interface IVCache<V extends BigdataURI,Short>
clearCache
- When true
the cached reference (if any) will NOT
be set on the copy.(Thread-local
cache combined with unbounded thread pools causes effective memory
leak)
public final boolean isVocabulary()
true
iff this IV
is a Vocabulary
item.
The default implementation returns false
.
Overridden to return true
.
isVocabulary
in interface IV<V extends BigdataURI,Short>
isVocabulary
in class AbstractIV<V extends BigdataURI,Short>
public int _compareTo(IV o)
AbstractIV
IV
s having the same intrinsic datatype._compareTo
in class AbstractIV<V extends BigdataURI,Short>
public boolean equals(Object o)
AbstractIV
IV
s are the same point in the same value
space. Points in different value spaces (as identified by different
datatype URIs) are NOT equal even if they have the same value in the
corresponding primitive data type.
Note: The IV
implementations typically DO NOT compare equals()
with BigdataValue
s. Therefore you MUST NOT mix IV
s and
BigdataValue
s in the keys of a map or the values of a set.
equals
in interface org.openrdf.model.URI
equals
in class AbstractIV<V extends BigdataURI,Short>
public final int hashCode()
hashCode
in interface org.openrdf.model.URI
hashCode
in class AbstractIV<V extends BigdataURI,Short>
public V asValue(LexiconRelation lex) throws UnsupportedOperationException
IVCache
BigdataValue
and cache it on a private field.
Note: Query plans are responsible for ensuring that IV
s have been
materialized before operators are evaluated which invoke this method.
This pattern ensures that efficient batch operators are used to
materialize Value
s, and thereby avoids heavy RMI overhead in
scale-out, and provides operators which use IVCache.getValue()
with a
simple method signature which does not require access to the lexicon.
Query plans are also responsible for dropping variables once they are no
longer needed or, in the case of large values and BLOBs, dropping the
cached BigdataValue
when possible in order to avoid excess
network and heap overhead.
asValue
in interface IVCache<V extends BigdataURI,Short>
lex
- The lexicon relation (this is required in order to access the
BigdataValueFactory
for the namespace associated with
lexicon when we materialize an inline IV
).BigdataValue
.UnsupportedOperationException
- if the IV
does not represent something which can be
materialized. For example, a dummy value or a "null".public final int byteLength()
IV
IV
.byteLength
in interface IV<V extends BigdataURI,Short>
public final Short getInlineValue()
IV
Object
corresponding to the inline value.getInlineValue
in interface IV<V extends BigdataURI,Short>
Object
.public String toString()
public boolean needsMaterialization()
needsMaterialization
in interface IV<V extends BigdataURI,Short>
public String stringValue()
Value.stringValue()
.stringValue
in interface org.openrdf.model.Value
public String getLocalName()
URI.getLocalName()
.getLocalName
in interface org.openrdf.model.URI
public String getNamespace()
URI.getNamespace()
.getNamespace
in interface org.openrdf.model.URI
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