org.hibernate.dialect
Class TimesTenDialect

java.lang.Object
  extended by org.hibernate.dialect.Dialect
      extended by org.hibernate.dialect.TimesTenDialect

public class TimesTenDialect
extends Dialect

A SQL dialect for TimesTen 5.1. Known limitations: joined-subclass support because of no CASE support in TimesTen No support for subqueries that includes aggregation - size() in HQL not supported - user queries that does subqueries with aggregation No CLOB/BLOB support No cascade delete support. No Calendar support No support for updating primary keys.

Author:
Sherry Listgarten and Max Andersen

Field Summary
 
Fields inherited from class org.hibernate.dialect.Dialect
CLOSED_QUOTE, DEFAULT_BATCH_SIZE, NO_BATCH, QUOTE
 
Constructor Summary
TimesTenDialect()
           
 
Method Summary
 JoinFragment createOuterJoinFragment()
          Create a JoinFragment strategy responsible for handling this dialect's variations in how joins are handled.
 boolean dropConstraints()
          Do we need to drop constraints before dropping tables in this dialect?
 String generateTemporaryTableName(String baseTableName)
          Generate a temporary table name given the bas table.
 String getAddColumnString()
          The syntax used to add a column to a table (optional).
 String getCreateSequenceString(String sequenceName)
          Typically dialects which support sequences can create a sequence with a single command.
 String getCreateTemporaryTablePostfix()
          Get any fragments needing to be postfixed to the command for temporary table creation.
 String getCreateTemporaryTableString()
          Command used to create a temporary table.
 String getCrossJoinSeparator()
          Get the separator to use for defining cross joins when translating HQL queries.
 String getCurrentTimestampSelectString()
          Retrieve the command used to retrieve the current timestamp from the database.
 String getDropSequenceString(String sequenceName)
          Typically dialects which support sequences can drop a sequence with a single command.
 String getForUpdateString()
          Get the string to append to SELECT statements to acquire locks for this dialect.
 String getLimitString(String querySelect, int offset, int limit)
          Given a limit and an offset, apply the limit clause to the query.
 LockingStrategy getLockingStrategy(Lockable lockable, LockMode lockMode)
          Get a strategy instance which knows how to acquire a database-level lock of the specified mode for this dialect.
 String getQuerySequencesString()
          Get the select command used retrieve the names of all sequences.
 String getSelectSequenceNextValString(String sequenceName)
          Generate the select expression fragment that will retrieve the next value of a sequence as part of another (typically DML) statement.
 String getSequenceNextValString(String sequenceName)
          Generate the appropriate select statement to to retrieve the next value of a sequence.
 boolean isCurrentTimestampSelectStringCallable()
          Should the value returned by Dialect.getCurrentTimestampSelectString() be treated as callable.
 boolean qualifyIndexName()
          Do we need to qualify index names with the schema name?
 boolean supportsColumnCheck()
          Does this dialect support column-level check constraints?
 boolean supportsCurrentTimestampSelection()
          Does this dialect support a way to retrieve the database's current timestamp value?
 boolean supportsEmptyInList()
          Does this dialect support empty IN lists?

For example, is [where XYZ in ()] a supported construct?

 boolean supportsLimit()
          Does this dialect support some form of limiting query results via a SQL clause?
 boolean supportsLimitOffset()
          Does this dialect's LIMIT support (if any) additionally support specifying an offset?
 boolean supportsSequences()
          Does this dialect support sequences?
 boolean supportsTableCheck()
          Does this dialect support table-level check constraints?
 boolean supportsTemporaryTables()
          Does this dialect support temporary tables?
 boolean supportsUnique()
          Does this dialect support the UNIQUE column syntax?
 boolean supportsUniqueConstraintInCreateAlterTable()
          Does this dialect support adding Unique constraints via create and alter table ?
 boolean supportsVariableLimit()
          Does this dialect support bind variables (i.e., prepared statement parameters) for its limit/offset?
 boolean useMaxForLimit()
          Does the LIMIT clause take a "maximum" row number instead of a total number of returned rows?

This is easiest understood via an example.

 
Methods inherited from class org.hibernate.dialect.Dialect
appendIdentitySelectToInsert, appendLockHint, applyLocksToSql, areStringComparisonsCaseInsensitive, bindLimitParametersFirst, bindLimitParametersInReverseOrder, buildSQLExceptionConverter, closeQuote, convertToFirstRowValue, createCaseFragment, doesReadCommittedCauseWritersToBlockReaders, doesRepeatableReadCauseReadersToBlockWriters, dropTemporaryTableAfterUse, forceLimitUsage, forUpdateOfColumns, getAddForeignKeyConstraintString, getAddPrimaryKeyConstraintString, getCascadeConstraintsString, getCastTypeName, getColumnComment, getCreateMultisetTableString, getCreateSequenceString, getCreateSequenceStrings, getCreateSequenceStrings, getCreateTableString, getCurrentTimestampSQLFunctionName, getDefaultProperties, getDialect, getDialect, getDropForeignKeyString, getDropSequenceStrings, getDropTemporaryTableString, getForUpdateNowaitString, getForUpdateNowaitString, getForUpdateString, getForUpdateString, getForUpdateString, getForUpdateString, getFunctions, getHibernateTypeName, getHibernateTypeName, getIdentityColumnString, getIdentityColumnString, getIdentityInsertString, getIdentitySelectString, getIdentitySelectString, getKeywords, getLimitString, getLowercaseFunction, getMaxAliasLength, getNativeIdentifierGeneratorClass, getNoColumnsInsertString, getNullColumnString, getReadLockString, getResultSet, getSelectClauseNullString, getSelectGUIDString, getTableComment, getTableTypeString, getTypeName, getTypeName, getViolatedConstraintNameExtracter, getWriteLockString, hasAlterTable, hasDataTypeInIdentityColumn, hasSelfReferentialForeignKeyBug, isLockTimeoutParameterized, openQuote, performTemporaryTableDDLInIsolation, quote, registerColumnType, registerColumnType, registerFunction, registerHibernateType, registerHibernateType, registerKeyword, registerResultSetOutParameter, requiresCastingOfParametersInSelectClause, supportsBindAsCallableArgument, supportsCascadeDelete, supportsCircularCascadeDeleteConstraints, supportsCommentOn, supportsExistsInSelect, supportsExpectedLobUsagePattern, supportsIdentityColumns, supportsIfExistsAfterTableName, supportsIfExistsBeforeTableName, supportsInsertSelectIdentity, supportsLobValueChangePropogation, supportsLockTimeouts, supportsNotNullUnique, supportsOuterJoinForUpdate, supportsParametersInInsertSelect, supportsPooledSequences, supportsResultSetPositionQueryMethodsOnForwardOnlyCursor, supportsRowValueConstructorSyntax, supportsRowValueConstructorSyntaxInInList, supportsSubqueryOnMutatingTable, supportsSubselectAsInPredicateLHS, supportsTupleCounts, supportsTupleDistinctCounts, supportsUnboundedLobLocatorMaterialization, supportsUnionAll, toBooleanValueString, toString, transformSelectString, useInputStreamToInsertBlob
 
Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, wait
 

Constructor Detail

TimesTenDialect

public TimesTenDialect()
Method Detail

dropConstraints

public boolean dropConstraints()
Description copied from class: Dialect
Do we need to drop constraints before dropping tables in this dialect?

Overrides:
dropConstraints in class Dialect
Returns:
True if constraints must be dropped prior to dropping the table; false otherwise.

qualifyIndexName

public boolean qualifyIndexName()
Description copied from class: Dialect
Do we need to qualify index names with the schema name?

Overrides:
qualifyIndexName in class Dialect
Returns:
boolean

supportsUnique

public boolean supportsUnique()
Description copied from class: Dialect
Does this dialect support the UNIQUE column syntax?

Overrides:
supportsUnique in class Dialect
Returns:
boolean

supportsUniqueConstraintInCreateAlterTable

public boolean supportsUniqueConstraintInCreateAlterTable()
Description copied from class: Dialect
Does this dialect support adding Unique constraints via create and alter table ?

Overrides:
supportsUniqueConstraintInCreateAlterTable in class Dialect
Returns:
boolean

getAddColumnString

public String getAddColumnString()
Description copied from class: Dialect
The syntax used to add a column to a table (optional).

Overrides:
getAddColumnString in class Dialect
Returns:
The "add column" fragment.

supportsSequences

public boolean supportsSequences()
Description copied from class: Dialect
Does this dialect support sequences?

Overrides:
supportsSequences in class Dialect
Returns:
True if sequences supported; false otherwise.

getSelectSequenceNextValString

public String getSelectSequenceNextValString(String sequenceName)
Description copied from class: Dialect
Generate the select expression fragment that will retrieve the next value of a sequence as part of another (typically DML) statement.

This differs from Dialect.getSequenceNextValString(String) in that this should return an expression usable within another statement.

Overrides:
getSelectSequenceNextValString in class Dialect
Parameters:
sequenceName - the name of the sequence
Returns:
The "nextval" fragment.

getSequenceNextValString

public String getSequenceNextValString(String sequenceName)
Description copied from class: Dialect
Generate the appropriate select statement to to retrieve the next value of a sequence.

This should be a "stand alone" select statement.

Overrides:
getSequenceNextValString in class Dialect
Parameters:
sequenceName - the name of the sequence
Returns:
String The "nextval" select string.

getCreateSequenceString

public String getCreateSequenceString(String sequenceName)
Description copied from class: Dialect
Typically dialects which support sequences can create a sequence with a single command. This is convenience form of Dialect.getCreateSequenceStrings(java.lang.String) to help facilitate that.

Dialects which support sequences and can create a sequence in a single command need *only* override this method. Dialects which support sequences but require multiple commands to create a sequence should instead override Dialect.getCreateSequenceStrings(java.lang.String).

Overrides:
getCreateSequenceString in class Dialect
Parameters:
sequenceName - The name of the sequence
Returns:
The sequence creation command

getDropSequenceString

public String getDropSequenceString(String sequenceName)
Description copied from class: Dialect
Typically dialects which support sequences can drop a sequence with a single command. This is convenience form of Dialect.getDropSequenceStrings(java.lang.String) to help facilitate that.

Dialects which support sequences and can drop a sequence in a single command need *only* override this method. Dialects which support sequences but require multiple commands to drop a sequence should instead override Dialect.getDropSequenceStrings(java.lang.String).

Overrides:
getDropSequenceString in class Dialect
Parameters:
sequenceName - The name of the sequence
Returns:
The sequence drop commands

getQuerySequencesString

public String getQuerySequencesString()
Description copied from class: Dialect
Get the select command used retrieve the names of all sequences.

Overrides:
getQuerySequencesString in class Dialect
Returns:
The select command; or null if sequences are not supported.
See Also:
SchemaUpdate

createOuterJoinFragment

public JoinFragment createOuterJoinFragment()
Description copied from class: Dialect
Create a JoinFragment strategy responsible for handling this dialect's variations in how joins are handled.

Overrides:
createOuterJoinFragment in class Dialect
Returns:
This dialect's JoinFragment strategy.

getCrossJoinSeparator

public String getCrossJoinSeparator()
Description copied from class: Dialect
Get the separator to use for defining cross joins when translating HQL queries.

Typically this will be either [ cross join ] or [, ]

Note that the spaces are important!

Overrides:
getCrossJoinSeparator in class Dialect
Returns:

getForUpdateString

public String getForUpdateString()
Description copied from class: Dialect
Get the string to append to SELECT statements to acquire locks for this dialect.

Overrides:
getForUpdateString in class Dialect
Returns:
The appropriate FOR UPDATE clause string.

supportsColumnCheck

public boolean supportsColumnCheck()
Description copied from class: Dialect
Does this dialect support column-level check constraints?

Overrides:
supportsColumnCheck in class Dialect
Returns:
True if column-level CHECK constraints are supported; false otherwise.

supportsTableCheck

public boolean supportsTableCheck()
Description copied from class: Dialect
Does this dialect support table-level check constraints?

Overrides:
supportsTableCheck in class Dialect
Returns:
True if table-level CHECK constraints are supported; false otherwise.

supportsLimitOffset

public boolean supportsLimitOffset()
Description copied from class: Dialect
Does this dialect's LIMIT support (if any) additionally support specifying an offset?

Overrides:
supportsLimitOffset in class Dialect
Returns:
True if the dialect supports an offset within the limit support.

supportsVariableLimit

public boolean supportsVariableLimit()
Description copied from class: Dialect
Does this dialect support bind variables (i.e., prepared statement parameters) for its limit/offset?

Overrides:
supportsVariableLimit in class Dialect
Returns:
True if bind variables can be used; false otherwise.

supportsLimit

public boolean supportsLimit()
Description copied from class: Dialect
Does this dialect support some form of limiting query results via a SQL clause?

Overrides:
supportsLimit in class Dialect
Returns:
True if this dialect supports some form of LIMIT.

useMaxForLimit

public boolean useMaxForLimit()
Description copied from class: Dialect
Does the LIMIT clause take a "maximum" row number instead of a total number of returned rows?

This is easiest understood via an example. Consider you have a table with 20 rows, but you only want to retrieve rows number 11 through 20. Generally, a limit with offset would say that the offset = 11 and the limit = 10 (we only want 10 rows at a time); this is specifying the total number of returned rows. Some dialects require that we instead specify offset = 11 and limit = 20, where 20 is the "last" row we want relative to offset (i.e. total number of rows = 20 - 11 = 9)

So essentially, is limit relative from offset? Or is limit absolute?

Overrides:
useMaxForLimit in class Dialect
Returns:
True if limit is relative from offset; false otherwise.

getLimitString

public String getLimitString(String querySelect,
                             int offset,
                             int limit)
Description copied from class: Dialect
Given a limit and an offset, apply the limit clause to the query.

Overrides:
getLimitString in class Dialect
Parameters:
querySelect - The query to which to apply the limit.
offset - The offset of the limit
limit - The limit of the limit ;)
Returns:
The modified query statement with the limit applied.

supportsCurrentTimestampSelection

public boolean supportsCurrentTimestampSelection()
Description copied from class: Dialect
Does this dialect support a way to retrieve the database's current timestamp value?

Overrides:
supportsCurrentTimestampSelection in class Dialect
Returns:
True if the current timestamp can be retrieved; false otherwise.

getCurrentTimestampSelectString

public String getCurrentTimestampSelectString()
Description copied from class: Dialect
Retrieve the command used to retrieve the current timestamp from the database.

Overrides:
getCurrentTimestampSelectString in class Dialect
Returns:
The command.

isCurrentTimestampSelectStringCallable

public boolean isCurrentTimestampSelectStringCallable()
Description copied from class: Dialect
Should the value returned by Dialect.getCurrentTimestampSelectString() be treated as callable. Typically this indicates that JDBC escape syntax is being used...

Overrides:
isCurrentTimestampSelectStringCallable in class Dialect
Returns:
True if the Dialect.getCurrentTimestampSelectString() return is callable; false otherwise.

supportsTemporaryTables

public boolean supportsTemporaryTables()
Description copied from class: Dialect
Does this dialect support temporary tables?

Overrides:
supportsTemporaryTables in class Dialect
Returns:
True if temp tables are supported; false otherwise.

generateTemporaryTableName

public String generateTemporaryTableName(String baseTableName)
Description copied from class: Dialect
Generate a temporary table name given the bas table.

Overrides:
generateTemporaryTableName in class Dialect
Parameters:
baseTableName - The table name from which to base the temp table name.
Returns:
The generated temp table name.

getCreateTemporaryTableString

public String getCreateTemporaryTableString()
Description copied from class: Dialect
Command used to create a temporary table.

Overrides:
getCreateTemporaryTableString in class Dialect
Returns:
The command used to create a temporary table.

getCreateTemporaryTablePostfix

public String getCreateTemporaryTablePostfix()
Description copied from class: Dialect
Get any fragments needing to be postfixed to the command for temporary table creation.

Overrides:
getCreateTemporaryTablePostfix in class Dialect
Returns:
Any required postfix.

getLockingStrategy

public LockingStrategy getLockingStrategy(Lockable lockable,
                                          LockMode lockMode)
Description copied from class: Dialect
Get a strategy instance which knows how to acquire a database-level lock of the specified mode for this dialect.

Overrides:
getLockingStrategy in class Dialect
Parameters:
lockable - The persister for the entity to be locked.
lockMode - The type of lock to be acquired.
Returns:
The appropriate locking strategy.

supportsEmptyInList

public boolean supportsEmptyInList()
Description copied from class: Dialect
Does this dialect support empty IN lists?

For example, is [where XYZ in ()] a supported construct?

Overrides:
supportsEmptyInList in class Dialect
Returns:
True if empty in lists are supported; false otherwise.


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