Interface ExecutionFactory

All Known Implementing Classes:
GenericExecutionFactory

public interface ExecutionFactory
This is the factory for creating a factories needed by execution per connection, and the context to hold them.

There is expected to be one of these configured per database.

If a factory is needed outside of execution (say, data dictionary or compilation), then it belongs in the LanguageConnectionContext.

See Also:
  • Field Details

  • Method Details

    • getResultSetFactory

      ResultSetFactory getResultSetFactory()
      Only one result set factory is needed for a database in the system. We require that an execution factory be configured for each database. Each execution factory then needs to know about the result set factory it is maintaining for its database, so that it can provide it through calls to this method. So, we reuse the result set factory by making it available to each connection in that connection's execution context.
      Returns:
      the result set factory for this database.
    • getResultSetStatisticsFactory

      ResultSetStatisticsFactory getResultSetStatisticsFactory() throws StandardException
      Get the ResultSetStatisticsFactory from this ExecutionFactory.
      Returns:
      The result set statistics factory associated with this ExecutionFactory
      Throws:
      StandardException - Thrown on error
    • getXPLAINFactory

      XPLAINFactoryIF getXPLAINFactory() throws StandardException
      Get the XPLAINFactory from this ExecutionFactory.
      Returns:
      The xplain factory associated with this ExecutionContext
      Throws:
      StandardException - Thrown on error
    • newExecutionContext

      ExecutionContext newExecutionContext(ContextManager cm)
      Get the ExecutionFactory from this ExecutionContext. We want an execution context so that we can push it onto the stack. We could instead require the implementation push it onto the stack for us, but this way we know which context object exactly was pushed onto the stack.
      Parameters:
      cm - the context manager
    • getResultColumnDescriptor

      ResultColumnDescriptor getResultColumnDescriptor(ResultColumnDescriptor compileRCD)
      Create an execution time ResultColumnDescriptor from a compile time RCD.
      Parameters:
      compileRCD - The compile time RCD.
      Returns:
      The execution time ResultColumnDescriptor
    • getResultDescription

      ResultDescription getResultDescription(ResultColumnDescriptor[] columns, String statementType)
      Create a result description given parameters for it.
    • getScanQualifier

      ScanQualifier[][] getScanQualifier(int numQualifiers)
      Get an array of ScanQualifiers for a scan. ScanQualifiers are used with the DataDictionary.
      Parameters:
      numQualifiers - The number of ScanQualifiers to get.
    • releaseScanQualifier

      void releaseScanQualifier(ScanQualifier[][] scanQualifiers)
      Release a ScanQualifier[] (back to the pool or free it).
    • getQualifier

      Qualifier getQualifier(int columnId, int operator, GeneratedMethod orderableGetter, Activation activation, boolean orderedNulls, boolean unknownRV, boolean negateCompareResult, int variantType)
      Get a Qualifier to use with a scan of a conglomerate.
      Parameters:
      columnId - The store id of the column to qualify
      operator - One of Orderable.ORDER_OP_EQUALS, Orderable.ORDER_OP_LESSTHAN, or Orderable.ORDER_OP_LESSOREQUALS
      orderableGetter - A generated method that returns the Orderable to be compared with the column
      activation - The Activation that acts as the receiver for the generated method
      orderedNulls - True means that null == null for the sake of this Qualifier
      unknownRV - The value to return if the comparison between the column and the Orderable value returns the unknown truth value
      negateCompareResult - True means to negate the result of the comparison. So, for example, to do a > comparison, you would pass ORDER_OP_LESSOREQUALS and set negate to true.
      variantType - The variantType for the qualifier's orderable. (Determines whether or not to cache the value.)
      Returns:
      A new Qualifier
    • getRowChanger

      RowChanger getRowChanger(long heapConglom, StaticCompiledOpenConglomInfo heapSCOCI, DynamicCompiledOpenConglomInfo heapDCOCI, IndexRowGenerator[] irgs, long[] indexCIDS, StaticCompiledOpenConglomInfo[] indexSCOCIs, DynamicCompiledOpenConglomInfo[] indexDCOCIs, int numberOfColumns, TransactionController tc, int[] changedColumnIds, int[] streamStorableHeapColIds, Activation activation) throws StandardException
      Create a new RowChanger for performing update and delete operations based on full before and after rows.
      Parameters:
      heapConglom - Conglomerate # for the heap
      heapSCOCI - The SCOCI for the heap.
      heapDCOCI - The DCOCI for the heap.
      irgs - the IndexRowGenerators for the table's indexes. We use positions in this array as local id's for indexes. To support updates, only indexes that change need be included.
      indexCIDS - the conglomerateids for the table's idexes. indexCIDS[ix] corresponds to the same index as irgs[ix].
      indexSCOCIs - the SCOCIs for the table's idexes. indexSCOCIs[ix] corresponds to the same index as irgs[ix].
      indexDCOCIs - the DCOCIs for the table's idexes. indexDCOCIs[ix] corresponds to the same index as irgs[ix].
      numberOfColumns - Number of columns in a full row.
      tc - the transaction controller
      streamStorableHeapColIds - Column ids of stream storable columns. (0 based, Only needed for sync. null if none or not needed).
      activation - The Activation.
      Throws:
      StandardException - Thrown on error
    • getRowChanger

      RowChanger getRowChanger(long heapConglom, StaticCompiledOpenConglomInfo heapSCOCI, DynamicCompiledOpenConglomInfo heapDCOCI, IndexRowGenerator[] irgs, long[] indexCIDS, StaticCompiledOpenConglomInfo[] indexSCOCIs, DynamicCompiledOpenConglomInfo[] indexDCOCIs, int numberOfColumns, TransactionController tc, int[] changedColumnIds, FormatableBitSet baseRowReadList, int[] baseRowReadMap, int[] streamStorableColIds, Activation activation) throws StandardException
      Create a new RowChanger for doing insert update and delete operations based on partial before and after.
      Parameters:
      heapConglom - Conglomerate # for the heap
      heapSCOCI - The SCOCI for the heap.
      heapDCOCI - The DCOCI for the heap.
      irgs - the IndexRowGenerators for the table's indexes. We use positions in this array as local id's for indexes. To support updates, only indexes that change need be included.
      indexCIDS - the conglomerateids for the table's idexes. indexCIDS[ix] corresponds to the same index as irgs[ix].
      indexSCOCIs - the SCOCIs for the table's idexes. indexSCOCIs[ix] corresponds to the same index as irgs[ix].
      indexDCOCIs - the DCOCIs for the table's idexes. indexDCOCIs[ix] corresponds to the same index as irgs[ix].
      numberOfColumns - Number of columns in partial row.
      tc - the transaction controller
      changedColumnIds - array of 1 based ints of columns to be updated. Used by update only.
      baseRowReadList - the columns in the base row that were read (1 based)
      baseRowReadMap - baseRowReadMap[heapColId]->readRowColId (0 based)
      streamStorableColIds - Column ids of stream storable columns. (0 based, Only needed for sync. null if none or not needed).
      activation - The Activation.
      Throws:
      StandardException - Thrown on error
    • getValueRow

      ExecRow getValueRow(int numColumns)
      This returns a new row that is storable but not indexable
    • getIndexableRow

      ExecIndexRow getIndexableRow(int numColumns)
      This returns an indexable row
    • getIndexableRow

      ExecIndexRow getIndexableRow(ExecRow valueRow)
      This returns the value row as an indexable row