public class BoundStatement extends Statement implements SettableData<BoundStatement>, GettableData
PreparedStatement
it has been created from, such BoundStatement can be executed (through
Session.execute(Statement)
).
The values of a BoundStatement can be set by either index or name. When
setting them by name, names follow the case insensitivity rules explained in
ColumnDefinitions
but with the difference that if multiple bind
variables have the same name, setting that name will set all the
variables for that name.
With native protocol V3 or below, all variables of the statement must be bound.
If you don't explicitly set a value for a variable, an IllegalStateException
will be thrown when submitting the statement. If you want to set a variable to
null
, use setToNull
.
With native protocol V4 or above, variables can be left unset, in which case they
will be ignored server side (no tombstones will be generated). If you're reusing
a bound statement, you can unset
variables that were previously
set.
This class is not thread-safe. Do not share instances among requests that will
execute concurrently (e.g. requests run from separate application threads, but also
separate executeAsync
calls, even if they're
triggered from the same thread).idempotent, NULL_PAYLOAD_VALUE
Constructor and Description |
---|
BoundStatement(PreparedStatement statement)
Creates a new
BoundStatement from the provided prepared
statement. |
Modifier and Type | Method and Description |
---|---|
BoundStatement |
bind(Object... values)
Bound values to the variables of this statement.
|
<T> T |
get(int i,
Class<T> targetClass)
Returns the
i th value converted to the given Java type. |
<T> T |
get(int i,
TypeCodec<T> codec)
Returns the
i th value converted using the given TypeCodec . |
<T> T |
get(int i,
TypeToken<T> targetType)
Returns the
i th value converted to the given Java type. |
<T> T |
get(String name,
Class<T> targetClass)
Returns the value for
name converted to the given Java type. |
<T> T |
get(String name,
TypeCodec<T> codec)
Returns the value for
name converted using the given TypeCodec . |
<T> T |
get(String name,
TypeToken<T> targetType)
Returns the value for
name converted to the given Java type. |
boolean |
getBool(int i)
Returns the
i th value as a boolean. |
boolean |
getBool(String name)
Returns the value for
name as a boolean. |
byte |
getByte(int i)
Returns the
i th value as a byte. |
byte |
getByte(String name)
Returns the value for
name as a byte. |
ByteBuffer |
getBytes(int i)
Returns the
i th value as a byte array. |
ByteBuffer |
getBytes(String name)
Returns the value for
name as a byte array. |
ByteBuffer |
getBytesUnsafe(int i)
Returns the
i th value as a ByteBuffer . |
ByteBuffer |
getBytesUnsafe(String name)
Returns the value for
name as a ByteBuffer. |
LocalDate |
getDate(int i)
Returns the
i th value as a date (without time). |
LocalDate |
getDate(String name)
Returns the value for
name as a date (without time). |
BigDecimal |
getDecimal(int i)
Returns the
i th value as a variable length decimal. |
BigDecimal |
getDecimal(String name)
Returns the value for
name as a variable length decimal. |
double |
getDouble(int i)
Returns the
i th value as a double. |
double |
getDouble(String name)
Returns the value for
name as a double. |
float |
getFloat(int i)
Returns the
i th value as a float. |
float |
getFloat(String name)
Returns the value for
name as a float. |
InetAddress |
getInet(int i)
Returns the
i th value as an InetAddress. |
InetAddress |
getInet(String name)
Returns the value for
name as an InetAddress. |
int |
getInt(int i)
Returns the
i th value as an integer. |
int |
getInt(String name)
Returns the value for
name as an integer. |
String |
getKeyspace()
Returns the keyspace this query operates on.
|
<T> List<T> |
getList(int i,
Class<T> elementsClass)
Returns the
i th value as a list. |
<T> List<T> |
getList(int i,
TypeToken<T> elementsType)
Returns the
i th value as a list. |
<T> List<T> |
getList(String name,
Class<T> elementsClass)
Returns the value for
name as a list. |
<T> List<T> |
getList(String name,
TypeToken<T> elementsType)
Returns the value for
name as a list. |
long |
getLong(int i)
Returns the
i th value as a long. |
long |
getLong(String name)
Returns the value for
name as a long. |
<K,V> Map<K,V> |
getMap(int i,
Class<K> keysClass,
Class<V> valuesClass)
Returns the
i th value as a map. |
<K,V> Map<K,V> |
getMap(int i,
TypeToken<K> keysType,
TypeToken<V> valuesType)
Returns the
i th value as a map. |
<K,V> Map<K,V> |
getMap(String name,
Class<K> keysClass,
Class<V> valuesClass)
Returns the value for
name as a map. |
<K,V> Map<K,V> |
getMap(String name,
TypeToken<K> keysType,
TypeToken<V> valuesType)
Returns the value for
name as a map. |
Object |
getObject(int i)
Returns the
i th value as the Java type matching its CQL type. |
Object |
getObject(String name)
Returns the value for
name as the Java type matching its CQL type. |
ByteBuffer |
getRoutingKey(ProtocolVersion protocolVersion,
CodecRegistry codecRegistry)
The routing key for this bound query.
|
Token |
getRoutingToken()
Returns the routing token to use for token aware routing of this query.
|
<T> Set<T> |
getSet(int i,
Class<T> elementsClass)
Returns the
i th value as a set. |
<T> Set<T> |
getSet(int i,
TypeToken<T> elementsType)
Returns the
i th value as a set. |
<T> Set<T> |
getSet(String name,
Class<T> elementsClass)
Returns the value for
name as a set. |
<T> Set<T> |
getSet(String name,
TypeToken<T> elementsType)
Returns the value for
name as a set. |
short |
getShort(int i)
Returns the
i th value as a short. |
short |
getShort(String name)
Returns the value for
name as a short. |
String |
getString(int i)
Returns the
i th value as a string. |
String |
getString(String name)
Returns the value for
name as a string. |
long |
getTime(int i)
Returns the
i th value as a long in nanoseconds since midnight. |
long |
getTime(String name)
Returns the value for
name as a long in nanoseconds since midnight. |
Date |
getTimestamp(int i)
Returns the
i th value as a date. |
Date |
getTimestamp(String name)
Returns the value for
name as a date. |
TupleValue |
getTupleValue(int i)
Return the
i th value as a tuple value. |
TupleValue |
getTupleValue(String name)
Return the value for
name as a tuple value. |
UDTValue |
getUDTValue(int i)
Return the
i th value as a UDT value. |
UDTValue |
getUDTValue(String name)
Return the value for
name as a UDT value. |
UUID |
getUUID(int i)
Returns the
i th value as a UUID. |
UUID |
getUUID(String name)
Returns the value for
name as a UUID. |
BigInteger |
getVarint(int i)
Returns the
i th value as a variable length integer. |
BigInteger |
getVarint(String name)
Returns the value for
name as a variable length integer. |
boolean |
isNull(int i)
Returns whether the
i th value is NULL. |
boolean |
isNull(String name)
Returns whether the value for
name is NULL. |
boolean |
isSet(int i)
Returns whether the
i th variable has been bound. |
boolean |
isSet(String name)
Returns whether the first occurrence of variable
name has been
bound. |
PreparedStatement |
preparedStatement()
Returns the prepared statement on which this BoundStatement is based.
|
int |
requestSizeInBytes(ProtocolVersion protocolVersion,
CodecRegistry codecRegistry)
Returns the number of bytes required to encode this statement.
|
<V> BoundStatement |
set(int i,
V v,
Class<V> targetClass)
Sets the
i th value to the provided value of the provided Java class. |
<V> BoundStatement |
set(int i,
V v,
TypeCodec<V> codec)
Sets the
i th value to the provided value, converted using the given TypeCodec . |
<V> BoundStatement |
set(int i,
V v,
TypeToken<V> targetType)
Sets the
i th value to the provided value of the provided Java type. |
<V> BoundStatement |
set(String name,
V v,
Class<V> targetClass)
Sets the value for (all occurrences of) variable
name to the provided value of the provided Java class. |
<V> BoundStatement |
set(String name,
V v,
TypeCodec<V> codec)
Sets the value for (all occurrences of) variable
name to the provided value,
converted using the given TypeCodec . |
<V> BoundStatement |
set(String name,
V v,
TypeToken<V> targetType)
Sets the value for (all occurrences of) variable
name to the provided value of the provided Java type. |
BoundStatement |
setBool(int i,
boolean v)
Sets the
i th value to the provided boolean. |
BoundStatement |
setBool(String name,
boolean v)
Sets the value for (all occurrences of) variable
name to the
provided boolean. |
BoundStatement |
setByte(int i,
byte v)
Set the
i th value to the provided byte. |
BoundStatement |
setByte(String name,
byte v)
Sets the value for (all occurrences of) variable
name to the
provided byte. |
BoundStatement |
setBytes(int i,
ByteBuffer v)
Sets the
i th value to the provided byte buffer. |
BoundStatement |
setBytes(String name,
ByteBuffer v)
Sets the value for (all occurrences of) variable
name to the
provided byte buffer. |
BoundStatement |
setBytesUnsafe(int i,
ByteBuffer v)
Sets the
i th value to the provided byte buffer. |
BoundStatement |
setBytesUnsafe(String name,
ByteBuffer v)
Sets the value for (all occurrences of) variable
name to the
provided byte buffer. |
BoundStatement |
setDate(int i,
LocalDate v)
Set the
i th value to the provided date (without time). |
BoundStatement |
setDate(String name,
LocalDate v)
Sets the value for (all occurrences of) variable
name to the
provided date (without time). |
BoundStatement |
setDecimal(int i,
BigDecimal v)
Sets the
i th value to the provided big decimal. |
BoundStatement |
setDecimal(String name,
BigDecimal v)
Sets the value for (all occurrences of) variable
name to the
provided big decimal. |
BoundStatement |
setDouble(int i,
double v)
Sets the
i th value to the provided double. |
BoundStatement |
setDouble(String name,
double v)
Sets the value for (all occurrences of) variable
name to the
provided double. |
BoundStatement |
setFloat(int i,
float v)
Sets the
i th value to the provided float. |
BoundStatement |
setFloat(String name,
float v)
Sets the value for (all occurrences of) variable
name to the
provided float. |
BoundStatement |
setInet(int i,
InetAddress v)
Sets the
i th value to the provided inet address. |
BoundStatement |
setInet(String name,
InetAddress v)
Sets the value for (all occurrences of) variable
name to the
provided inet address. |
BoundStatement |
setInt(int i,
int v)
Set the
i th value to the provided integer. |
BoundStatement |
setInt(String name,
int v)
Sets the value for (all occurrences of) variable
name to the
provided integer. |
<E> BoundStatement |
setList(int i,
List<E> v,
Class<E> elementsClass)
Sets the
i th value to the provided list, which elements are of the provided
Java class. |
<E> BoundStatement |
setList(int i,
List<E> v,
TypeToken<E> elementsType)
Sets the
i th value to the provided list, which elements are of the provided
Java type. |
<T> BoundStatement |
setList(int i,
List<T> v)
Sets the
i th value to the provided list. |
<E> BoundStatement |
setList(String name,
List<E> v,
Class<E> elementsClass)
Sets the value for (all occurrences of) variable
name to the provided list,
which elements are of the provided Java class. |
<E> BoundStatement |
setList(String name,
List<E> v,
TypeToken<E> elementsType)
Sets the value for (all occurrences of) variable
name to the provided list,
which elements are of the provided Java type. |
<T> BoundStatement |
setList(String name,
List<T> v)
Sets the value for (all occurrences of) variable
name to the
provided list. |
BoundStatement |
setLong(int i,
long v)
Sets the
i th value to the provided long. |
BoundStatement |
setLong(String name,
long v)
Sets the value for (all occurrences of) variable
name to the
provided long. |
<K,V> BoundStatement |
setMap(int i,
Map<K,V> v)
Sets the
i th value to the provided map. |
<K,V> BoundStatement |
setMap(int i,
Map<K,V> v,
Class<K> keysClass,
Class<V> valuesClass)
Sets the
i th value to the provided map, which keys and values are of the provided
Java classes. |
<K,V> BoundStatement |
setMap(int i,
Map<K,V> v,
TypeToken<K> keysType,
TypeToken<V> valuesType)
Sets the
i th value to the provided map, which keys and values are of the provided
Java types. |
<K,V> BoundStatement |
setMap(String name,
Map<K,V> v)
Sets the value for (all occurrences of) variable
name to the
provided map. |
<K,V> BoundStatement |
setMap(String name,
Map<K,V> v,
Class<K> keysClass,
Class<V> valuesClass)
Sets the value for (all occurrences of) variable
name to the provided map,
which keys and values are of the provided Java classes. |
<K,V> BoundStatement |
setMap(String name,
Map<K,V> v,
TypeToken<K> keysType,
TypeToken<V> valuesType)
Sets the value for (all occurrences of) variable
name to the provided map,
which keys and values are of the provided Java types. |
BoundStatement |
setPartitionKeyToken(Token v)
Sets the value for (all occurrences of) variable "
partition key token "
to the provided token (this is the name generated by Cassandra for markers
corresponding to a token(...) call). |
BoundStatement |
setRoutingKey(ByteBuffer... routingKeyComponents)
Sets the routing key for this bound statement, when the query partition key is composite and the routing key must
be built from multiple values.
|
BoundStatement |
setRoutingKey(ByteBuffer routingKey)
Sets the routing key for this bound statement.
|
BoundStatement |
setRoutingToken(Token routingToken)
Sets a routing token for this statement.
|
<E> BoundStatement |
setSet(int i,
Set<E> v,
Class<E> elementsClass)
Sets the
i th value to the provided set, which elements are of the provided
Java class. |
<E> BoundStatement |
setSet(int i,
Set<E> v,
TypeToken<E> elementsType)
Sets the
i th value to the provided set, which elements are of the provided
Java type. |
<T> BoundStatement |
setSet(int i,
Set<T> v)
Sets the
i th value to the provided set. |
<E> BoundStatement |
setSet(String name,
Set<E> v,
Class<E> elementsClass)
Sets the value for (all occurrences of) variable
name to the provided set,
which elements are of the provided Java class. |
<E> BoundStatement |
setSet(String name,
Set<E> v,
TypeToken<E> elementsType)
Sets the value for (all occurrences of) variable
name to the provided set,
which elements are of the provided Java type. |
<T> BoundStatement |
setSet(String name,
Set<T> v)
Sets the value for (all occurrences of) variable
name to the
provided set. |
BoundStatement |
setShort(int i,
short v)
Set the
i th value to the provided short. |
BoundStatement |
setShort(String name,
short v)
Sets the value for (all occurrences of) variable
name to the
provided short. |
BoundStatement |
setString(int i,
String v)
Sets the
i th value to the provided string. |
BoundStatement |
setString(String name,
String v)
Sets the value for (all occurrences of) variable
name to the
provided string. |
BoundStatement |
setTime(int i,
long v)
Set the
i th value to the provided time as a long in nanoseconds since midnight. |
BoundStatement |
setTime(String name,
long v)
Sets the value for (all occurrences of) variable
name to the
provided time as a long in nanoseconds since midnight. |
BoundStatement |
setTimestamp(int i,
Date v)
Set the
i th value to the provided date. |
BoundStatement |
setTimestamp(String name,
Date v)
Sets the value for (all occurrences of) variable
name to the
provided date. |
BoundStatement |
setToken(int i,
Token v)
Sets the
i th value to the provided Token . |
BoundStatement |
setToken(String name,
Token v)
Sets the value for (all occurrences of) variable
name to the
provided token. |
BoundStatement |
setToNull(int i)
Sets the
i th value to null . |
BoundStatement |
setToNull(String name)
Sets the value for (all occurrences of) variable
name to null . |
BoundStatement |
setTupleValue(int i,
TupleValue v)
Sets the
i th value to the provided tuple value. |
BoundStatement |
setTupleValue(String name,
TupleValue v)
Sets the value for (all occurrences of) variable
name to the
provided tuple value. |
BoundStatement |
setUDTValue(int i,
UDTValue v)
Sets the
i th value to the provided UDT value. |
BoundStatement |
setUDTValue(String name,
UDTValue v)
Sets the value for (all occurrences of) variable
name to the
provided UDT value. |
BoundStatement |
setUUID(int i,
UUID v)
Sets the
i th value to the provided UUID. |
BoundStatement |
setUUID(String name,
UUID v)
Sets the value for (all occurrences of) variable
name to the
provided UUID. |
BoundStatement |
setVarint(int i,
BigInteger v)
Sets the
i th value to the provided big integer. |
BoundStatement |
setVarint(String name,
BigInteger v)
Sets the value for (all occurrences of) variable
name to the
provided big integer. |
void |
unset(int i)
Unsets the
i th variable. |
void |
unset(String name)
Unsets all occurrences of variable
name . |
disableTracing, enableTracing, executingAs, getConsistencyLevel, getDefaultTimestamp, getFetchSize, getOutgoingPayload, getReadTimeoutMillis, getRetryPolicy, getSerialConsistencyLevel, isBatchIdempotent, isIdempotent, isTracing, setConsistencyLevel, setDefaultTimestamp, setFetchSize, setIdempotent, setOutgoingPayload, setPagingState, setPagingState, setPagingStateUnsafe, setReadTimeoutMillis, setRetryPolicy, setSerialConsistencyLevel
public BoundStatement(PreparedStatement statement)
BoundStatement
from the provided prepared
statement.statement
- the prepared statement from which to create a BoundStatement
.public PreparedStatement preparedStatement()
public boolean isSet(int i)
i
th variable has been bound.i
- the index of the variable to check.i
th variable has been bound.IndexOutOfBoundsException
- if i < 0 || i >= this.preparedStatement().variables().size()
.public boolean isSet(String name)
name
has been
bound.name
- the name of the variable to check.name
has been
bound to a non-null value.IllegalArgumentException
- if name
is not a prepared
variable, that is if !this.preparedStatement().variables().names().contains(name)
.public void unset(int i)
i
th variable. This will leave the statement in the same state as if no setter was
ever called for this variable.
The treatment of unset variables depends on the native protocol version, see BoundStatement
for explanations.i
- the index of the variable.IndexOutOfBoundsException
- if i < 0 || i >= this.preparedStatement().variables().size()
.public void unset(String name)
name
. This will leave the statement in the same state
as if no setter was ever called for this variable.
The treatment of unset variables depends on the native protocol version, see BoundStatement
for explanations.name
- the name of the variable.IllegalArgumentException
- if name
is not a prepared
variable, that is if !this.preparedStatement().variables().names().contains(name)
.public BoundStatement bind(Object... values)
BoundStatement
in one call.values
- the values to bind to the variables of the newly created
BoundStatement. The first element of values
will be bound to the
first bind variable, etc. It is legal to provide fewer values than the
statement has bound variables. In that case, the remaining variable need
to be bound before execution. If more values than variables are provided
however, an IllegalArgumentException wil be raised.IllegalArgumentException
- if more values
are provided
than there is of bound variables in this statement.InvalidTypeException
- if any of the provided value is not of
correct type to be bound to the corresponding bind variable.NullPointerException
- if one of values
is a collection
(List, Set or Map) containing a null value. Nulls are not supported in
collections by CQL.public ByteBuffer getRoutingKey(ProtocolVersion protocolVersion, CodecRegistry codecRegistry)
null
value if either of the following occur:
setRoutingKey(java.nio.ByteBuffer)
.PreparedStatement.setRoutingKey(java.nio.ByteBuffer)
for the
PreparedStatement
this statement has been built from.BoundStatement
. The routing
key will then be built using the values provided for these partition key columns.null
is returned.
Note that if the routing key has been set through setRoutingKey(java.nio.ByteBuffer)
, then that takes
precedence. If the routing key has been set through PreparedStatement.setRoutingKey(java.nio.ByteBuffer)
then that is used
next. If neither of those are set then it is computed.getRoutingKey
in class Statement
protocolVersion
- unused by this implementation (no internal serialization is required to compute the key).codecRegistry
- unused by this implementation (no internal serialization is required to compute the key).null
.public Token getRoutingToken()
Statement
Statement.getRoutingKey(ProtocolVersion, CodecRegistry)
, except that the key is already hashed.
A typical use case would be analytics clients wishing to optimize a query by splitting it into chunks, each
targeted to a direct replica. Such clients could call Metadata.getTokenRanges()
to get a description of
the ring, and then issue a separate query with the end token of each range. Unlike the routing key, the routing
token is never computed automatically.
If both the routing key and token are defined, the token is used in priority.getRoutingToken
in class Statement
null
.public BoundStatement setRoutingToken(Token routingToken)
getRoutingToken()
public BoundStatement setRoutingKey(ByteBuffer routingKey)
PreparedStatement
this bound statement
was built from, nor automatically computed from bound variables. In particular, this is the case if the
partition key is composite and only some of its components are bound.routingKey
- the raw (binary) value to use as routing key.BoundStatement
object.getRoutingKey(com.datastax.driver.core.ProtocolVersion, com.datastax.driver.core.CodecRegistry)
public BoundStatement setRoutingKey(ByteBuffer... routingKeyComponents)
PreparedStatement
this bound statement
was built from, nor automatically computed from bound variables. In particular, this is the case if the
partition key is composite and only some of its components are bound.routingKeyComponents
- the raw (binary) values to compose to obtain
the routing key.BoundStatement
object.getRoutingKey(com.datastax.driver.core.ProtocolVersion, com.datastax.driver.core.CodecRegistry)
public String getKeyspace()
null
. Firstly, some queries do
not operate inside a keyspace: keyspace creation, USE
queries,
user creation, etc. Secondly, even query that operate within a keyspace
do not have to specify said keyspace directly, in which case the
currently logged in keyspace (the one set through a USE
query
(or through the use of Cluster.connect(String)
)). Lastly, as
for the routing key, this keyspace information is only a hint for
token-aware routing (since replica placement depend on the replication
strategy in use which is a per-keyspace property) and having this method
return null
(or even a bogus keyspace name) will never cause the
query to fail.
Note: This returns the internal representation of the keyspace. In the typical case, the internal representation is equivalent to the CQL representation. However, if you are using a keyspace that requires the use of quotes in CQL (a quoted identifier), i.e.: "MyKS", this method will return the unquoted representation instead, i.e. MyKS.
getKeyspace
in class Statement
null
.public int requestSizeInBytes(ProtocolVersion protocolVersion, CodecRegistry codecRegistry)
requestSizeInBytes
in class Statement
public BoundStatement setBool(int i, boolean v)
i
th value to the provided boolean.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type boolean
, this will be the built-in codec).setBool
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. To set the value to NULL, use SettableByIndexData.setToNull(int)
or
set(i, v, Boolean.class)
public BoundStatement setBool(String name, boolean v)
name
to the
provided boolean.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type boolean
, this will be the built-in codec).setBool
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. To set the value to NULL, use SettableByNameData.setToNull(String)
or
set(name, v, Boolean.class)
.public BoundStatement setByte(int i, byte v)
i
th value to the provided byte.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type tinyint
, this will be the built-in codec).setByte
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. To set the value to NULL, use SettableByIndexData.setToNull(int)
or
set(i, v, Byte.class)
public BoundStatement setByte(String name, byte v)
name
to the
provided byte.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type tinyint
, this will be the built-in codec).setByte
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. To set the value to NULL, use SettableByNameData.setToNull(String)
or
set(name, v, Byte.class)
.public BoundStatement setShort(int i, short v)
i
th value to the provided short.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type smallint
, this will be the built-in codec).setShort
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. To set the value to NULL, use SettableByIndexData.setToNull(int)
or
set(i, v, Short.class)
public BoundStatement setShort(String name, short v)
name
to the
provided short.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type smallint
, this will be the built-in codec).setShort
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. To set the value to NULL, use SettableByNameData.setToNull(String)
or
set(name, v, Short.class)
.public BoundStatement setInt(int i, int v)
i
th value to the provided integer.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type int
, this will be the built-in codec).setInt
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. To set the value to NULL, use SettableByIndexData.setToNull(int)
or
set(i, v, Integer.class)
public BoundStatement setInt(String name, int v)
name
to the
provided integer.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type int
, this will be the built-in codec).setInt
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. To set the value to NULL, use SettableByNameData.setToNull(String)
or
set(name, v, Integer.class)
.public BoundStatement setLong(int i, long v)
i
th value to the provided long.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type bigint
, this will be the built-in codec).setLong
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. To set the value to NULL, use SettableByIndexData.setToNull(int)
or
set(i, v, Long.class)
public BoundStatement setLong(String name, long v)
name
to the
provided long.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type bigint
, this will be the built-in codec).setLong
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. To set the value to NULL, use SettableByNameData.setToNull(String)
or
set(name, v, Long.class)
.public BoundStatement setTimestamp(int i, Date v)
i
th value to the provided date.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type timestamp
, this will be the built-in codec).setTimestamp
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setTimestamp(String name, Date v)
name
to the
provided date.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type timestamp
, this will be the built-in codec).setTimestamp
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public BoundStatement setDate(int i, LocalDate v)
i
th value to the provided date (without time).
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type date
, this will be the built-in codec).setDate
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setDate(String name, LocalDate v)
name
to the
provided date (without time).
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type date
, this will be the built-in codec).setDate
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public BoundStatement setTime(int i, long v)
i
th value to the provided time as a long in nanoseconds since midnight.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type time
, this will be the built-in codec).setTime
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setTime(String name, long v)
name
to the
provided time as a long in nanoseconds since midnight.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type time
, this will be the built-in codec).setTime
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public BoundStatement setFloat(int i, float v)
i
th value to the provided float.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type float
, this will be the built-in codec).setFloat
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. To set the value to NULL, use SettableByIndexData.setToNull(int)
or
set(i, v, Float.class)
public BoundStatement setFloat(String name, float v)
name
to the
provided float.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type float
, this will be the built-in codec).setFloat
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. To set the value to NULL, use SettableByNameData.setToNull(String)
or
set(name, v, Float.class)
.public BoundStatement setDouble(int i, double v)
i
th value to the provided double.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type double
, this will be the built-in codec).setDouble
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. To set the value to NULL, use SettableByIndexData.setToNull(int)
or
set(i, v, Double.class)
.public BoundStatement setDouble(String name, double v)
name
to the
provided double.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type double
, this will be the built-in codec).setDouble
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. To set the value to NULL, use SettableByNameData.setToNull(String)
or
set(name, v, Double.class)
.public BoundStatement setString(int i, String v)
i
th value to the provided string.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL types text
, varchar
and ascii
,
this will be the built-in codec).setString
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setString(String name, String v)
name
to the
provided string.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL types text
, varchar
and ascii
,
this will be the built-in codec).setString
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public BoundStatement setBytes(int i, ByteBuffer v)
i
th value to the provided byte buffer.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type blob
, this will be the built-in codec).setBytes
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setBytes(String name, ByteBuffer v)
name
to the
provided byte buffer.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type blob
, this will be the built-in codec).setBytes
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public BoundStatement setBytesUnsafe(int i, ByteBuffer v)
i
th value to the provided byte buffer.
This method does not use any codec; it sets the value in its binary form directly. If you insert
data that is not compatible with the underlying CQL type, you will get an InvalidQueryException
at
execute time.setBytesUnsafe
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setBytesUnsafe(String name, ByteBuffer v)
name
to the
provided byte buffer.
This method does not use any codec; it sets the value in its binary form directly. If you insert
data that is not compatible with the underlying CQL type, you will get an InvalidQueryException
at
execute time.setBytesUnsafe
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public BoundStatement setVarint(int i, BigInteger v)
i
th value to the provided big integer.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type varint
, this will be the built-in codec).setVarint
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setVarint(String name, BigInteger v)
name
to the
provided big integer.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type varint
, this will be the built-in codec).setVarint
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public BoundStatement setDecimal(int i, BigDecimal v)
i
th value to the provided big decimal.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type decimal
, this will be the built-in codec).setDecimal
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setDecimal(String name, BigDecimal v)
name
to the
provided big decimal.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type decimal
, this will be the built-in codec).setDecimal
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public BoundStatement setUUID(int i, UUID v)
i
th value to the provided UUID.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL types uuid
and timeuuid
, this will
be the built-in codec).setUUID
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setUUID(String name, UUID v)
name
to the
provided UUID.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL types uuid
and timeuuid
, this will
be the built-in codec).setUUID
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public BoundStatement setInet(int i, InetAddress v)
i
th value to the provided inet address.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type inet
, this will be the built-in codec).setInet
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setInet(String name, InetAddress v)
name
to the
provided inet address.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (for CQL type inet
, this will be the built-in codec).setInet
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public BoundStatement setToken(int i, Token v)
i
th value to the provided Token
.
setPartitionKeyToken(Token)
should generally be preferred if you
have a single token variable.i
- the index of the variable to set.v
- the value to set.IndexOutOfBoundsException
- if i < 0 || i >= this.preparedStatement().variables().size()
.InvalidTypeException
- if column i
is not of the type of the token's value.public BoundStatement setToken(String name, Token v)
name
to the
provided token.
setPartitionKeyToken(Token)
should generally be preferred if you
have a single token variable.
If you have multiple token variables, use positional binding (setToken(int, Token)
,
or named bind markers:
PreparedStatement pst = session.prepare("SELECT * FROM my_table WHERE token(k) > :min AND token(k) <= :max");
BoundStatement b = pst.bind().setToken("min", minToken).setToken("max", maxToken);
name
- the name of the variable to set; if multiple variables
name
are prepared, all of them are set.v
- the value to set.IllegalArgumentException
- if name
is not a prepared
variable, that is, if !this.preparedStatement().variables().names().contains(name)
.InvalidTypeException
- if (any occurrence of) name
is
not of the type of the token's value.public BoundStatement setPartitionKeyToken(Token v)
partition key token
"
to the provided token (this is the name generated by Cassandra for markers
corresponding to a token(...)
call).
This method is a shorthand for statements with a single token variable:
Token token = ...
PreparedStatement pst = session.prepare("SELECT * FROM my_table WHERE token(k) = ?");
BoundStatement b = pst.bind().setPartitionKeyToken(token);
If you have multiple token variables, use positional binding (setToken(int, Token)
,
or named bind markers:
PreparedStatement pst = session.prepare("SELECT * FROM my_table WHERE token(k) > :min AND token(k) <= :max");
BoundStatement b = pst.bind().setToken("min", minToken).setToken("max", maxToken);
v
- the value to set.IllegalArgumentException
- if name
is not a prepared
variable, that is, if !this.preparedStatement().variables().names().contains(name)
.InvalidTypeException
- if (any occurrence of) name
is
not of the type of the token's value.public <T> BoundStatement setList(int i, List<T> v)
i
th value to the provided list.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (the type of the elements in the Java list is not considered).
If two or more codecs target that CQL type, the one that was first registered will be used.
For this reason, it is generally preferable to use the more deterministic methods
SettableByIndexData.setList(int, List, Class)
or SettableByIndexData.setList(int, List, TypeToken)
.setList
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. Note that null
values inside collections are not supported by CQL.public <E> BoundStatement setList(int i, List<E> v, Class<E> elementsClass)
i
th value to the provided list, which elements are of the provided
Java class.
This method uses the CodecRegistry
to find a codec to handle the conversion of lists of the given
Java type to the underlying CQL type.
If the type of the elements is generic, use SettableByIndexData.setList(int, List, TypeToken)
.setList
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. Note that null
values inside collections are not supported by CQL.elementsClass
- the class for the elements of the list.public <E> BoundStatement setList(int i, List<E> v, TypeToken<E> elementsType)
i
th value to the provided list, which elements are of the provided
Java type.
This method uses the CodecRegistry
to find a codec to handle the conversion of lists of the given
Java type to the underlying CQL type.setList
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. Note that null
values inside collections are not supported by CQL.elementsType
- the type for the elements of the list.public <T> BoundStatement setList(String name, List<T> v)
name
to the
provided list.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (the type of the elements in the Java list is not considered).
If two or more codecs target that CQL type, the one that was first registered will be used.
For this reason, it is generally preferable to use the more deterministic methods
SettableByNameData.setList(String, List, Class)
or SettableByNameData.setList(String, List, TypeToken)
.setList
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. Note that null
values inside collections are not supported by CQL.public <E> BoundStatement setList(String name, List<E> v, Class<E> elementsClass)
name
to the provided list,
which elements are of the provided Java class.
This method uses the CodecRegistry
to find a codec to handle the conversion of lists of the given
Java type to the underlying CQL type.
If the type of the elements is generic, use SettableByNameData.setList(String, List, TypeToken)
.setList
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiplev
- the value to set. Note that null
values inside collections are not supported by CQL.elementsClass
- the class for the elements of the list.public <E> BoundStatement setList(String name, List<E> v, TypeToken<E> elementsType)
name
to the provided list,
which elements are of the provided Java type.
This method uses the CodecRegistry
to find a codec to handle the conversion of lists of the given
Java type to the underlying CQL type.setList
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiplev
- the value to set. Note that null
values inside collections are not supported by CQL.elementsType
- the type for the elements of the list.public <K,V> BoundStatement setMap(int i, Map<K,V> v)
i
th value to the provided map.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (the type of the elements in the Java map is not considered).
If two or more codecs target that CQL type, the one that was first registered will be used.
For this reason, it is generally preferable to use the more deterministic methods
SettableByIndexData.setMap(int, Map, Class, Class)
or SettableByIndexData.setMap(int, Map, TypeToken, TypeToken)
.setMap
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. Note that null
values inside collections are not supported by CQL.public <K,V> BoundStatement setMap(int i, Map<K,V> v, Class<K> keysClass, Class<V> valuesClass)
i
th value to the provided map, which keys and values are of the provided
Java classes.
This method uses the CodecRegistry
to find a codec to handle the conversion of lists of the given
Java types to the underlying CQL type.
If the type of the keys or values is generic, use SettableByIndexData.setMap(int, Map, TypeToken, TypeToken)
.setMap
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. Note that null
values inside collections are not supported by CQL.keysClass
- the class for the keys of the map.valuesClass
- the class for the values of the map.public <K,V> BoundStatement setMap(int i, Map<K,V> v, TypeToken<K> keysType, TypeToken<V> valuesType)
i
th value to the provided map, which keys and values are of the provided
Java types.
This method uses the CodecRegistry
to find a codec to handle the conversion of lists of the given
Java types to the underlying CQL type.setMap
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. Note that null
values inside collections are not supported by CQL.keysType
- the type for the keys of the map.valuesType
- the type for the values of the map.public <K,V> BoundStatement setMap(String name, Map<K,V> v)
name
to the
provided map.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (the type of the elements in the Java map is not considered).
If two or more codecs target that CQL type, the one that was first registered will be used.
For this reason, it is generally preferable to use the more deterministic methods
SettableByNameData.setMap(String, Map, Class, Class)
or SettableByNameData.setMap(String, Map, TypeToken, TypeToken)
.setMap
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. Note that null
values inside collections are not supported by CQL.public <K,V> BoundStatement setMap(String name, Map<K,V> v, Class<K> keysClass, Class<V> valuesClass)
name
to the provided map,
which keys and values are of the provided Java classes.
This method uses the CodecRegistry
to find a codec to handle the conversion of lists of the given
Java types to the underlying CQL type.
If the type of the keys or values is generic, use SettableByNameData.setMap(String, Map, TypeToken, TypeToken)
.setMap
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. Note that null
values inside collections are not supported by CQL.keysClass
- the class for the keys of the map.valuesClass
- the class for the values of the map.public <K,V> BoundStatement setMap(String name, Map<K,V> v, TypeToken<K> keysType, TypeToken<V> valuesType)
name
to the provided map,
which keys and values are of the provided Java types.
This method uses the CodecRegistry
to find a codec to handle the conversion of lists of the given
Java types to the underlying CQL type.setMap
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. Note that null
values inside collections are not supported by CQL.keysType
- the type for the keys of the map.valuesType
- the type for the values of the map.public <T> BoundStatement setSet(int i, Set<T> v)
i
th value to the provided set.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (the type of the elements in the Java set is not considered).
If two or more codecs target that CQL type, the one that was first registered will be used.
For this reason, it is generally preferable to use the more deterministic methods
SettableByIndexData.setSet(int, Set, Class)
or SettableByIndexData.setSet(int, Set, TypeToken)
.setSet
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. Note that null
values inside collections are not supported by CQL.public <E> BoundStatement setSet(int i, Set<E> v, Class<E> elementsClass)
i
th value to the provided set, which elements are of the provided
Java class.
This method uses the CodecRegistry
to find a codec to handle the conversion of sets of the given
Java type to the underlying CQL type.
If the type of the elements is generic, use SettableByIndexData.setSet(int, Set, TypeToken)
.setSet
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. Note that null
values inside collections are not supported by CQL.elementsClass
- the class for the elements of the set.public <E> BoundStatement setSet(int i, Set<E> v, TypeToken<E> elementsType)
i
th value to the provided set, which elements are of the provided
Java type.
This method uses the CodecRegistry
to find a codec to handle the conversion of sets of the given
Java type to the underlying CQL type.setSet
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set. Note that null
values inside collections are not supported by CQL.elementsType
- the type for the elements of the set.public <T> BoundStatement setSet(String name, Set<T> v)
name
to the
provided set.
This method uses the CodecRegistry
to find a codec to handle the conversion
to the underlying CQL type (the type of the elements in the Java set is not considered).
If two or more codecs target that CQL type, the one that was first registered will be used.
For this reason, it is generally preferable to use the more deterministic methods
SettableByNameData.setSet(String, Set, Class)
or SettableByNameData.setSet(String, Set, TypeToken)
.setSet
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set. Note that null
values inside collections are not supported by CQL.public <E> BoundStatement setSet(String name, Set<E> v, Class<E> elementsClass)
name
to the provided set,
which elements are of the provided Java class.
This method uses the CodecRegistry
to find a codec to handle the conversion of sets of the given
Java type to the underlying CQL type.
If the type of the elements is generic, use SettableByNameData.setSet(String, Set, TypeToken)
.setSet
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiplev
- the value to set. Note that null
values inside collections are not supported by CQL.elementsClass
- the class for the elements of the set.public <E> BoundStatement setSet(String name, Set<E> v, TypeToken<E> elementsType)
name
to the provided set,
which elements are of the provided Java type.
This method uses the CodecRegistry
to find a codec to handle the conversion of sets of the given
Java type to the underlying CQL type.setSet
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiplev
- the value to set. Note that null
values inside collections are not supported by CQL.elementsType
- the type for the elements of the set.public BoundStatement setUDTValue(int i, UDTValue v)
i
th value to the provided UDT value.
This method uses the CodecRegistry
to find a codec to handle the conversion of UDTValue
to the underlying CQL type.setUDTValue
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setUDTValue(String name, UDTValue v)
name
to the
provided UDT value.
This method uses the CodecRegistry
to find a codec to handle the conversion of UDTValue
to the underlying CQL type.setUDTValue
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public BoundStatement setTupleValue(int i, TupleValue v)
i
th value to the provided tuple value.
This method uses the CodecRegistry
to find a codec to handle the conversion of TupleValue
to the underlying CQL type.setTupleValue
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set.public BoundStatement setTupleValue(String name, TupleValue v)
name
to the
provided tuple value.
This method uses the CodecRegistry
to find a codec to handle the conversion of TupleValue
to the underlying CQL type.setTupleValue
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set.public <V> BoundStatement set(int i, V v, Class<V> targetClass)
i
th value to the provided value of the provided Java class.
This method uses the CodecRegistry
to find a codec to handle the conversion of the provided Java class
to the underlying CQL type.
If the Java type is generic, use SettableByIndexData.set(int, Object, TypeToken)
instead.set
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set; may be null
.targetClass
- The Java class to convert to; must not be null
;public <V> BoundStatement set(String name, V v, Class<V> targetClass)
name
to the provided value of the provided Java class.
This method uses the CodecRegistry
to find a codec to handle the conversion of the provided Java class
to the underlying CQL type.
If the Java type is generic, use SettableByNameData.set(String, Object, TypeToken)
instead.set
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set; may be null
.targetClass
- The Java class to convert to; must not be null
;public <V> BoundStatement set(int i, V v, TypeToken<V> targetType)
i
th value to the provided value of the provided Java type.
This method uses the CodecRegistry
to find a codec to handle the conversion of the provided Java type
to the underlying CQL type.set
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set; may be null
.targetType
- The Java type to convert to; must not be null
;public <V> BoundStatement set(String name, V v, TypeToken<V> targetType)
name
to the provided value of the provided Java type.
This method uses the CodecRegistry
to find a codec to handle the conversion of the provided Java type
to the underlying CQL type.set
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set; may be null
.targetType
- The Java type to convert to; must not be null
;public <V> BoundStatement set(int i, V v, TypeCodec<V> codec)
i
th value to the provided value, converted using the given TypeCodec
.
This method entirely bypasses the CodecRegistry
and forces the driver to use the given codec instead.
This can be useful if the codec would collide with a previously registered one, or if you want to use the
codec just once without registering it.
It is the caller's responsibility to ensure that the given codec accepts
the underlying CQL type; failing to do so may result in InvalidTypeException
s being thrown.set
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.v
- the value to set; may be null
.codec
- The TypeCodec
to use to serialize the value; may not be null
.public <V> BoundStatement set(String name, V v, TypeCodec<V> codec)
name
to the provided value,
converted using the given TypeCodec
.
This method entirely bypasses the CodecRegistry
and forces the driver to use the given codec instead.
This can be useful if the codec would collide with a previously registered one, or if you want to use the
codec just once without registering it.
It is the caller's responsibility to ensure that the given codec accepts
the underlying CQL type; failing to do so may result in InvalidTypeException
s being thrown.set
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.v
- the value to set; may be null
.codec
- The TypeCodec
to use to serialize the value; may not be null
.public BoundStatement setToNull(int i)
i
th value to null
.
This is mainly intended for CQL types which map to native Java types.setToNull
in interface SettableByIndexData<BoundStatement>
i
- the index of the value to set.public BoundStatement setToNull(String name)
name
to null
.
This is mainly intended for CQL types which map to native Java types.setToNull
in interface SettableByNameData<BoundStatement>
name
- the name of the value to set; if name
is present multiple
times, all its values are set.public boolean isNull(int i)
i
th value is NULL.isNull
in interface GettableByIndexData
i
- the index (0 <= i < size()
) of the value to check.i
th value is NULL.public boolean isNull(String name)
name
is NULL.isNull
in interface GettableByNameData
name
- the name to check.name
is NULL.public boolean getBool(int i)
i
th value as a boolean.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java boolean
(for CQL type boolean
, this will be the built-in codec).getBool
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element. If the value is NULL, false
is returned.
If you need to distinguish NULL and false values, check first with GettableByIndexData.isNull(int)
or use get(i, Boolean.class)
.public boolean getBool(String name)
name
as a boolean.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java boolean
(for CQL type boolean
, this will be the built-in codec).getBool
in interface GettableByNameData
name
- the name to retrieve.name
. If the value is NULL, false
is returned.
If you need to distinguish NULL and false values, check first with GettableByNameData.isNull(String)
or use get(name, Boolean.class)
.public byte getByte(int i)
i
th value as a byte.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java byte
(for CQL type tinyint
, this will be the built-in codec).getByte
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a byte. If the value is NULL, 0
is returned.
If you need to distinguish NULL and 0, check first with GettableByIndexData.isNull(int)
or use get(i, Byte.class)
.public byte getByte(String name)
name
as a byte.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java byte
(for CQL type tinyint
, this will be the built-in codec).getByte
in interface GettableByNameData
name
- the name to retrieve.name
as a byte. If the value is NULL, 0
is returned.
If you need to distinguish NULL and 0, check first with GettableByNameData.isNull(String)
or use get(name, Byte.class)
.
0
is returned.public short getShort(int i)
i
th value as a short.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java short
(for CQL type smallint
, this will be the built-in codec).getShort
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a short. If the value is NULL, 0
is returned.
If you need to distinguish NULL and 0, check first with GettableByIndexData.isNull(int)
or use get(i, Short.class)
.public short getShort(String name)
name
as a short.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java short
(for CQL type smallint
, this will be the built-in codec).getShort
in interface GettableByNameData
name
- the name to retrieve.name
as a short. If the value is NULL, 0
is returned.
If you need to distinguish NULL and 0, check first with GettableByNameData.isNull(String)
or use get(name, Short.class)
.
0
is returned.public int getInt(int i)
i
th value as an integer.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java int
(for CQL type int
, this will be the built-in codec).getInt
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as an integer. If the value is NULL, 0
is returned.
If you need to distinguish NULL and 0, check first with GettableByIndexData.isNull(int)
or use get(i, Integer.class)
.public int getInt(String name)
name
as an integer.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java int
(for CQL type int
, this will be the built-in codec).getInt
in interface GettableByNameData
name
- the name to retrieve.name
as an integer. If the value is NULL, 0
is returned.
If you need to distinguish NULL and 0, check first with GettableByNameData.isNull(String)
or use get(name, Integer.class)
.
0
is returned.public long getLong(int i)
i
th value as a long.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java byte
(for CQL types bigint
and counter
, this will be the built-in codec).getLong
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a long. If the value is NULL, 0L
is returned.
If you need to distinguish NULL and 0L, check first with GettableByIndexData.isNull(int)
or use get(i, Long.class)
.public long getLong(String name)
name
as a long.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java byte
(for CQL types bigint
and counter
, this will be the built-in codec).getLong
in interface GettableByNameData
name
- the name to retrieve.name
as a long. If the value is NULL, 0L
is returned.
If you need to distinguish NULL and 0L, check first with GettableByNameData.isNull(String)
or use get(name, Long.class)
.public Date getTimestamp(int i)
i
th value as a date.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Date
(for CQL type timestamp
, this will be the built-in codec).getTimestamp
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a data. If the
value is NULL, null
is returned.public Date getTimestamp(String name)
name
as a date.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Date
(for CQL type timestamp
, this will be the built-in codec).getTimestamp
in interface GettableByNameData
name
- the name to retrieve.name
as a date. If the value is NULL,
null
is returned.public LocalDate getDate(int i)
i
th value as a date (without time).
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a LocalDate
(for CQL type date
, this will be the built-in codec).getDate
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as an date. If the
value is NULL, null
is returned.public LocalDate getDate(String name)
name
as a date (without time).
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a LocalDate
(for CQL type date
, this will be the built-in codec).getDate
in interface GettableByNameData
name
- the name to retrieve.name
as a date. If the value is NULL,
null
is returned.public long getTime(int i)
i
th value as a long in nanoseconds since midnight.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java long
(for CQL type time
, this will be the built-in codec).getTime
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a long. If the
value is NULL, 0L
is returned.public long getTime(String name)
name
as a long in nanoseconds since midnight.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java long
(for CQL type time
, this will be the built-in codec).getTime
in interface GettableByNameData
name
- the name to retrieve.name
as a long. If the value is NULL,
0L
is returned.public float getFloat(int i)
i
th value as a float.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java float
(for CQL type float
, this will be the built-in codec).getFloat
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a float. If the value is NULL, 0.0f
is returned.
If you need to distinguish NULL and 0.0f, check first with GettableByIndexData.isNull(int)
or use get(i, Float.class)
.public float getFloat(String name)
name
as a float.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java float
(for CQL type float
, this will be the built-in codec).getFloat
in interface GettableByNameData
name
- the name to retrieve.name
as a float. If the value is NULL, 0.0f
is returned.
If you need to distinguish NULL and 0.0f, check first with GettableByNameData.isNull(String)
or use get(name, Float.class)
.public double getDouble(int i)
i
th value as a double.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java double
(for CQL type double
, this will be the built-in codec).getDouble
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a double. If the value is NULL, 0.0
is returned.
If you need to distinguish NULL and 0.0, check first with GettableByIndexData.isNull(int)
or use get(i, Double.class)
.public double getDouble(String name)
name
as a double.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java double
(for CQL type double
, this will be the built-in codec).getDouble
in interface GettableByNameData
name
- the name to retrieve.name
as a double. If the value is NULL, 0.0
is returned.
If you need to distinguish NULL and 0.0, check first with GettableByNameData.isNull(String)
or use get(name, Double.class)
.public ByteBuffer getBytesUnsafe(int i)
i
th value as a ByteBuffer
.
This method does not use any codec; it returns a copy of the binary representation of the value. It is up to the
caller to convert the returned value appropriately.getBytesUnsafe
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a ByteBuffer. If the
value is NULL, null
is returned.public ByteBuffer getBytesUnsafe(String name)
name
as a ByteBuffer.
This method does not use any codec; it returns a copy of the binary representation of the value. It is up to the
caller to convert the returned value appropriately.
Note: this method always return the bytes composing the value, even if
the column is not of type BLOB. That is, this method never throw an
InvalidTypeException. However, if the type is not BLOB, it is up to the
caller to handle the returned value correctly.getBytesUnsafe
in interface GettableByNameData
name
- the name to retrieve.name
as a ByteBuffer. If the value is NULL,
null
is returned.public ByteBuffer getBytes(int i)
i
th value as a byte array.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java ByteBuffer
(for CQL type blob
, this will be the built-in codec).getBytes
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a byte array. If the
value is NULL, null
is returned.public ByteBuffer getBytes(String name)
name
as a byte array.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java ByteBuffer
(for CQL type blob
, this will be the built-in codec).getBytes
in interface GettableByNameData
name
- the name to retrieve.name
as a byte array. If the value is NULL,
null
is returned.public String getString(int i)
i
th value as a string.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java string
(for CQL types text
, varchar
and ascii
, this will be the built-in codec).getString
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a string. If the
value is NULL, null
is returned.public String getString(String name)
name
as a string.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a Java string
(for CQL types text
, varchar
and ascii
, this will be the built-in codec).getString
in interface GettableByNameData
name
- the name to retrieve.name
as a string. If the value is NULL,
null
is returned.public BigInteger getVarint(int i)
i
th value as a variable length integer.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a BigInteger
(for CQL type varint
, this will be the built-in codec).getVarint
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a variable
length integer. If the value is NULL, null
is returned.public BigInteger getVarint(String name)
name
as a variable length integer.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a BigInteger
(for CQL type varint
, this will be the built-in codec).getVarint
in interface GettableByNameData
name
- the name to retrieve.name
as a variable length integer.
If the value is NULL, null
is returned.public BigDecimal getDecimal(int i)
i
th value as a variable length decimal.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a BigDecimal
(for CQL type decimal
, this will be the built-in codec).getDecimal
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a variable
length decimal. If the value is NULL, null
is returned.public BigDecimal getDecimal(String name)
name
as a variable length decimal.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a BigDecimal
(for CQL type decimal
, this will be the built-in codec).getDecimal
in interface GettableByNameData
name
- the name to retrieve.name
as a variable length decimal.
If the value is NULL, null
is returned.public UUID getUUID(int i)
i
th value as a UUID.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a UUID
(for CQL types uuid
and timeuuid
, this will be the built-in codec).getUUID
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a UUID.
If the value is NULL, null
is returned.public UUID getUUID(String name)
name
as a UUID.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a UUID
(for CQL types uuid
and timeuuid
, this will be the built-in codec).getUUID
in interface GettableByNameData
name
- the name to retrieve.name
as a UUID.
If the value is NULL, null
is returned.public InetAddress getInet(int i)
i
th value as an InetAddress.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to an InetAddress
(for CQL type inet
, this will be the built-in codec).getInet
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as an InetAddress.
If the value is NULL, null
is returned.public InetAddress getInet(String name)
name
as an InetAddress.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to an InetAddress
(for CQL type inet
, this will be the built-in codec).getInet
in interface GettableByNameData
name
- the name to retrieve.name
as an InetAddress.
If the value is NULL, null
is returned.public <T> List<T> getList(int i, Class<T> elementsClass)
i
th value as a list.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a list of the specified type.
If the type of the elements is generic, use GettableByIndexData.getList(int, TypeToken)
.
Implementation note: the actual List
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will be mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getList
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.elementsClass
- the class for the elements of the list to retrieve.i
th element as a list of
T
objects.public <T> List<T> getList(int i, TypeToken<T> elementsType)
i
th value as a list.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a list of the specified type.
Use this variant with nested collections, which produce a generic element type:
List<List<String>> l = row.getList(1, new TypeToken<List<String>>() {});
Implementation note: the actual List
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getList
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.elementsType
- the type of the elements of the list to retrieve.i
th element as a list of
T
objects.public <T> List<T> getList(String name, Class<T> elementsClass)
name
as a list.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a list of the specified type.
If the type of the elements is generic, use GettableByNameData.getList(String, TypeToken)
.
Implementation note: the actual List
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getList
in interface GettableByNameData
name
- the name to retrieve.elementsClass
- the class for the elements of the list to retrieve.i
th element as a list of
T
objects.public <T> List<T> getList(String name, TypeToken<T> elementsType)
name
as a list.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a list of the specified type.
Use this variant with nested collections, which produce a generic element type:
List<List<String>> l = row.getList("theColumn", new TypeToken<List<String>>() {});
Implementation note: the actual List
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getList
in interface GettableByNameData
name
- the name to retrieve.elementsType
- the type for the elements of the list to retrieve.i
th element as a list of
T
objects.public <T> Set<T> getSet(int i, Class<T> elementsClass)
i
th value as a set.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a set of the specified type.
If the type of the elements is generic, use GettableByIndexData.getSet(int, TypeToken)
.
Implementation note: the actual Set
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getSet
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.elementsClass
- the class for the elements of the set to retrieve.i
th element as a set of
T
objects.public <T> Set<T> getSet(int i, TypeToken<T> elementsType)
i
th value as a set.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a set of the specified type.
Use this variant with nested collections, which produce a generic element type:
Set<List<String>> l = row.getSet(1, new TypeToken<List<String>>() {});
Implementation note: the actual Set
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getSet
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.elementsType
- the type for the elements of the set to retrieve.i
th element as a set of
T
objects.public <T> Set<T> getSet(String name, Class<T> elementsClass)
name
as a set.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a set of the specified type.
If the type of the elements is generic, use GettableByNameData.getSet(String, TypeToken)
.
Implementation note: the actual Set
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getSet
in interface GettableByNameData
name
- the name to retrieve.elementsClass
- the class for the elements of the set to retrieve.i
th element as a set of
T
objects.public <T> Set<T> getSet(String name, TypeToken<T> elementsType)
name
as a set.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a set of the specified type.
Use this variant with nested collections, which produce a generic element type:
Set<List<String>> l = row.getSet("theColumn", new TypeToken<List<String>>() {});
Implementation note: the actual Set
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getSet
in interface GettableByNameData
name
- the name to retrieve.elementsType
- the type for the elements of the set to retrieve.i
th element as a set of
T
objects.public <K,V> Map<K,V> getMap(int i, Class<K> keysClass, Class<V> valuesClass)
i
th value as a map.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a map of the specified types.
If the type of the keys and/or values is generic, use GettableByIndexData.getMap(int, TypeToken, TypeToken)
.
Implementation note: the actual Map
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getMap
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.keysClass
- the class for the keys of the map to retrieve.valuesClass
- the class for the values of the map to retrieve.i
th element as a map of
K
to V
objects.public <K,V> Map<K,V> getMap(int i, TypeToken<K> keysType, TypeToken<V> valuesType)
i
th value as a map.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a map of the specified types.
Use this variant with nested collections, which produce a generic element type:
Map<Int, List<String>> l = row.getMap(1, TypeToken.of(Integer.class), new TypeToken<List<String>>() {});
Implementation note: the actual Map
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getMap
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.keysType
- the type for the keys of the map to retrieve.valuesType
- the type for the values of the map to retrieve.i
th element as a map of
K
to V
objects.public <K,V> Map<K,V> getMap(String name, Class<K> keysClass, Class<V> valuesClass)
name
as a map.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a map of the specified types.
If the type of the keys and/or values is generic, use GettableByNameData.getMap(String, TypeToken, TypeToken)
.
Implementation note: the actual Map
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getMap
in interface GettableByNameData
name
- the name to retrieve.keysClass
- the class for the keys of the map to retrieve.valuesClass
- the class for the values of the map to retrieve.name
as a map of
K
to V
objects.public <K,V> Map<K,V> getMap(String name, TypeToken<K> keysType, TypeToken<V> valuesType)
name
as a map.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a map of the specified types.
Use this variant with nested collections, which produce a generic element type:
Map<Int, List<String>> l = row.getMap("theColumn", TypeToken.of(Integer.class), new TypeToken<List<String>>() {});
Implementation note: the actual Map
implementation will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent. By default, the driver will return mutable instances, and
a CQL NULL
will mapped to an empty collection (note that Cassandra
makes no distinction between NULL
and an empty collection).getMap
in interface GettableByNameData
name
- the name to retrieve.keysType
- the class for the keys of the map to retrieve.valuesType
- the class for the values of the map to retrieve.name
as a map of
K
to V
objects.public UDTValue getUDTValue(int i)
i
th value as a UDT value.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a UDTValue
(if the CQL type is a UDT, the registry will generate a codec automatically).getUDTValue
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a UDT value. If the value is NULL,
then null
will be returned.public UDTValue getUDTValue(String name)
name
as a UDT value.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a UDTValue
(if the CQL type is a UDT, the registry will generate a codec automatically).getUDTValue
in interface GettableByNameData
name
- the name to retrieve.name
as a UDT value. If the value is NULL,
then null
will be returned.public TupleValue getTupleValue(int i)
i
th value as a tuple value.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a TupleValue
(if the CQL type is a tuple, the registry will generate a codec automatically).getTupleValue
in interface GettableByIndexData
i
- the index (0 <= i < size()
) to retrieve.i
th element as a tuple value. If the value is NULL,
then null
will be returned.public TupleValue getTupleValue(String name)
name
as a tuple value.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to a TupleValue
(if the CQL type is a tuple, the registry will generate a codec automatically).getTupleValue
in interface GettableByNameData
name
- the name to retrieve.name
as a tuple value. If the value is NULL,
then null
will be returned.public Object getObject(int i)
i
th value as the Java type matching its CQL type.
This method uses the CodecRegistry
to find the first codec that handles the underlying CQL type. The Java type
of the returned object will be determined by the codec that was selected.
Use this method to dynamically inspect elements when types aren't known in advance, for instance if you're writing a
generic row logger. If you know the target Java type, it is generally preferable to use typed getters, such as the
ones for built-in types (GettableByIndexData.getBool(int)
, GettableByIndexData.getInt(int)
, etc.), or GettableByIndexData.get(int, Class)
and
GettableByIndexData.get(int, TypeToken)
for custom types.getObject
in interface GettableByIndexData
i
- the index to retrieve.i
th value as the Java type matching its CQL type.CodecRegistry.codecFor(DataType)
public Object getObject(String name)
name
as the Java type matching its CQL type.
This method uses the CodecRegistry
to find the first codec that handles the underlying CQL type. The Java type
of the returned object will be determined by the codec that was selected.
Use this method to dynamically inspect elements when types aren't known in advance, for instance if you're writing a
generic row logger. If you know the target Java type, it is generally preferable to use typed getters, such as the
ones for built-in types (GettableByNameData.getBool(String)
, GettableByNameData.getInt(String)
, etc.), or GettableByNameData.get(String, Class)
and
GettableByNameData.get(String, TypeToken)
for custom types.getObject
in interface GettableByNameData
name
- the name to retrieve.name
as the Java type matching its CQL type.
If the value is NULL and is a simple type, UDT or tuple, null
is returned.
If it is NULL and is a collection type, an empty (immutable) collection is returned.CodecRegistry.codecFor(DataType)
public <T> T get(int i, Class<T> targetClass)
i
th value converted to the given Java type.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to the given Java type.
If the target type is generic, use GettableByIndexData.get(int, TypeToken)
.
Implementation note: the actual object returned by this method will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent; by default, a CQL NULL
value translates to null
for
simple CQL types, UDTs and tuples, and to empty collections for all CQL collection types.get
in interface GettableByIndexData
i
- the index to retrieve.targetClass
- The Java type the value should be converted to.i
th value converted to the given Java type.public <T> T get(String name, Class<T> targetClass)
name
converted to the given Java type.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to the given Java type.
If the target type is generic, use GettableByNameData.get(String, TypeToken)
.
Implementation note: the actual object returned by this method will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent; by default, a CQL NULL
value translates to null
for
simple CQL types, UDTs and tuples, and to empty collections for all CQL collection types.get
in interface GettableByNameData
name
- the name to retrieve.targetClass
- The Java type the value should be converted to.name
value converted to the given Java type.public <T> T get(int i, TypeToken<T> targetType)
i
th value converted to the given Java type.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to the given Java type.
Implementation note: the actual object returned by this method will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent; by default, a CQL NULL
value translates to null
for
simple CQL types, UDTs and tuples, and to empty collections for all CQL collection types.get
in interface GettableByIndexData
i
- the index to retrieve.targetType
- The Java type the value should be converted to.i
th value converted to the given Java type.public <T> T get(String name, TypeToken<T> targetType)
name
converted to the given Java type.
This method uses the CodecRegistry
to find a codec to convert the underlying CQL type to the given Java type.
Implementation note: the actual object returned by this method will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent; by default, a CQL NULL
value translates to null
for
simple CQL types, UDTs and tuples, and to empty collections for all CQL collection types.get
in interface GettableByNameData
name
- the name to retrieve.targetType
- The Java type the value should be converted to.name
value converted to the given Java type.public <T> T get(int i, TypeCodec<T> codec)
i
th value converted using the given TypeCodec
.
This method entirely bypasses the CodecRegistry
and forces the driver to use the given codec instead.
This can be useful if the codec would collide with a previously registered one, or if you want to use the
codec just once without registering it.
It is the caller's responsibility to ensure that the given codec accepts
the underlying CQL type; failing to do so may result in InvalidTypeException
s being thrown.
Implementation note: the actual object returned by this method will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent; by default, a CQL NULL
value translates to null
for
simple CQL types, UDTs and tuples, and to empty collections for all CQL collection types.get
in interface GettableByIndexData
i
- the index to retrieve.codec
- The TypeCodec
to use to deserialize the value; may not be null
.i
th value converted using the given TypeCodec
.public <T> T get(String name, TypeCodec<T> codec)
name
converted using the given TypeCodec
.
This method entirely bypasses the CodecRegistry
and forces the driver to use the given codec instead.
This can be useful if the codec would collide with a previously registered one, or if you want to use the
codec just once without registering it.
It is the caller's responsibility to ensure that the given codec accepts
the underlying CQL type; failing to do so may result in InvalidTypeException
s being thrown.
Implementation note: the actual object returned by this method will depend
on the codec
being used; therefore, callers should
make no assumptions concerning its mutability nor its thread-safety.
Furthermore, the behavior of this method in respect to CQL NULL
values is also
codec-dependent; by default, a CQL NULL
value translates to null
for
simple CQL types, UDTs and tuples, and to empty collections for all CQL collection types.get
in interface GettableByNameData
name
- the name to retrieve.codec
- The TypeCodec
to use to deserialize the value; may not be null
.i
th value converted using the given TypeCodec
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