Interface OptTrace

All Known Implementing Classes:
DefaultOptTrace, XMLOptTrace

public interface OptTrace
Interface for optimizer tracing.
  • Method Details

    • traceStartStatement

      void traceStartStatement(String statementText)
      Start the start of tracing a statement.
    • traceStartQueryBlock

      void traceStartQueryBlock(long timeOptimizationStarted, int optimizerID, OptimizableList optimizableList)
      Start optimizer tracing for a query block.
    • traceEndQueryBlock

      void traceEndQueryBlock()
      End tracing the optimization of a query block.
    • traceTimeout

      void traceTimeout(long currentTime, CostEstimate bestCost)
      Say that the optimizer ran out of time.
    • traceVacuous

      void traceVacuous()
      Say that there's nothing to optimizer.
    • traceCompleteJoinOrder

      void traceCompleteJoinOrder()
      Say that we have a complete join order.
    • traceSortCost

      void traceSortCost(CostEstimate sortCost, CostEstimate currentCost)
      Report the sort cost.
    • traceNoBestPlan

      void traceNoBestPlan()
      Say that we couldn't find a best plan.
    • traceModifyingAccessPaths

      void traceModifyingAccessPaths(int optimizerID)
      Say that we're modifying access paths.
    • traceShortCircuiting

      void traceShortCircuiting(boolean timeExceeded, Optimizable thisOpt, int joinPosition)
      Say that we short-circuited a join order.
    • traceSkippingJoinOrder

      void traceSkippingJoinOrder(int nextOptimizable, int joinPosition, int[] proposedJoinOrder, JBitSet assignedTableMap)
      Say that we're skipping the join order starting with the next optimizable.
    • traceIllegalUserJoinOrder

      void traceIllegalUserJoinOrder()
      Say that the user specified an impossible join order.
    • traceUserJoinOrderOptimized

      void traceUserJoinOrderOptimized()
      Say that we have optimized the user-specified join order.
    • traceJoinOrderConsideration

      void traceJoinOrderConsideration(int joinPosition, int[] proposedJoinOrder, JBitSet assignedTableMap)
      Say that we're considering a join order.
    • traceCostWithoutSortAvoidance

      void traceCostWithoutSortAvoidance(CostEstimate currentCost)
      Report the cost without a sort.
    • traceCostWithSortAvoidance

      void traceCostWithSortAvoidance(CostEstimate currentSortAvoidanceCost)
      Report the cost with sort avoidance.
    • traceCurrentPlanAvoidsSort

      void traceCurrentPlanAvoidsSort(CostEstimate bestCost, CostEstimate currentSortAvoidanceCost)
      Say that the current plan avoids a sort.
    • traceCheapestPlanSoFar

      void traceCheapestPlanSoFar(int planType, CostEstimate currentCost)
      Report the cost of the cheapest plan so far.
    • traceSortNeededForOrdering

      void traceSortNeededForOrdering(int planType, RequiredRowOrdering requiredRowOrdering)
      Report that this plan needs a sort
    • traceRememberingBestJoinOrder

      void traceRememberingBestJoinOrder(int joinPosition, int[] bestJoinOrder, int planType, CostEstimate planCost, JBitSet assignedTableMap)
      Say that we are remembering the current plan as the best join order so far.
    • traceSkippingBecauseTooMuchMemory

      void traceSkippingBecauseTooMuchMemory(int maxMemoryPerTable)
      Say that we are skipping a plan because it consumes too much memory.
    • traceCostOfNScans

      void traceCostOfNScans(int tableNumber, double rowCount, CostEstimate cost)
      Report the cost of scanning a table a certain number of times
    • traceSkipUnmaterializableHashJoin

      void traceSkipUnmaterializableHashJoin()
      Say that we won't consider a hash join because the result can't be materialized
    • traceSkipHashJoinNoHashKeys

      void traceSkipHashJoinNoHashKeys()
      Say we won't consider a hash join because there are no hash key columns.
    • traceHashKeyColumns

      void traceHashKeyColumns(int[] hashKeyColumns)
      Report the columns being traced
    • traceOptimizingJoinNode

      void traceOptimizingJoinNode()
      Say that we're starting to optimize a join node
    • traceConsideringJoinStrategy

      void traceConsideringJoinStrategy(JoinStrategy js, int tableNumber)
      Say that we're considering a particular join strategy on a particular table.
    • traceRememberingBestAccessPath

      void traceRememberingBestAccessPath(AccessPath accessPath, int tableNumber, int planType)
      Report that we've found a best access path.
    • traceNoMoreConglomerates

      void traceNoMoreConglomerates(int tableNumber)
      Say that we have exhausted the conglomerate possibilities for a table.
    • traceConsideringConglomerate

      void traceConsideringConglomerate(ConglomerateDescriptor cd, int tableNumber)
      Report that we are considering a conglomerate for a table.
    • traceScanningHeapWithUniqueKey

      void traceScanningHeapWithUniqueKey()
      Say that we're considering scanning a heap even though we have a unique key match.
    • traceAddingUnorderedOptimizable

      void traceAddingUnorderedOptimizable(int predicateCount)
      Say that we're adding an unordered optimizable.
    • traceChangingAccessPathForTable

      void traceChangingAccessPathForTable(int tableNumber)
      Say that we're considering a different access path for a table.
    • traceNoStartStopPosition

      void traceNoStartStopPosition()
      Say that we're setting the lock mode to MODE_TABLE because there is no start/stop position.
    • traceNonCoveringIndexCost

      void traceNonCoveringIndexCost(double cost, int tableNumber)
      Say that we're considering a non-covering index.
    • traceConstantStartStopPositions

      void traceConstantStartStopPositions()
      Say that we're setting the lock mode to MODE_RECORD because the start and stop positions are all constant.
    • traceEstimatingCostOfConglomerate

      void traceEstimatingCostOfConglomerate(ConglomerateDescriptor cd, int tableNumber)
      Report the cost of using a particular conglomerate to scan a table.
    • traceLookingForSpecifiedIndex

      void traceLookingForSpecifiedIndex(String indexName, int tableNumber)
      Say that we're looking for an index specified by optimizer hints.
    • traceSingleMatchedRowCost

      void traceSingleMatchedRowCost(double cost, int tableNumber)
      Report the cost of a scan which will match exactly one row.
    • traceCostIncludingExtra1stColumnSelectivity

      void traceCostIncludingExtra1stColumnSelectivity(CostEstimate cost, int tableNumber)
      Report the cost of a scan given the selectivity of an extra first column.
    • traceNextAccessPath

      void traceNextAccessPath(String baseTable, int predicateCount)
      Report that we are advancing to the next access path for the table.
    • traceCostIncludingExtraStartStop

      void traceCostIncludingExtraStartStop(CostEstimate cost, int tableNumber)
      Report the cost if we include an extra start/stop.
    • traceCostIncludingExtraQualifierSelectivity

      void traceCostIncludingExtraQualifierSelectivity(CostEstimate cost, int tableNumber)
      Report the cost if we include an extra qualifier.
    • traceCostIncludingExtraNonQualifierSelectivity

      void traceCostIncludingExtraNonQualifierSelectivity(CostEstimate cost, int tableNumber)
      Report the cost if we include an extra non-qualifier.
    • traceCostOfNoncoveringIndex

      void traceCostOfNoncoveringIndex(CostEstimate cost, int tableNumber)
      Report the cost of using a non-covering index.
    • traceRememberingJoinStrategy

      void traceRememberingJoinStrategy(JoinStrategy joinStrategy, int tableNumber)
      Say that we've found a new best join strategy for the table.
    • traceRememberingBestAccessPathSubstring

      void traceRememberingBestAccessPathSubstring(AccessPath ap, int tableNumber)
      Report the best access path for the table so far.
    • traceRememberingBestSortAvoidanceAccessPathSubstring

      void traceRememberingBestSortAvoidanceAccessPathSubstring(AccessPath ap, int tableNumber)
      Report the best sort-avoiding access path for this table so far.
    • traceRememberingBestUnknownAccessPathSubstring

      void traceRememberingBestUnknownAccessPathSubstring(AccessPath ap, int tableNumber)
      Report an optimizer failure, e.g., while optimizing an outer join
    • traceCostOfConglomerateScan

      void traceCostOfConglomerateScan(int tableNumber, ConglomerateDescriptor cd, CostEstimate costEstimate, int numExtraFirstColumnPreds, double extraFirstColumnSelectivity, int numExtraStartStopPreds, double extraStartStopSelectivity, int startStopPredCount, double statStartStopSelectivity, int numExtraQualifiers, double extraQualifierSelectivity, int numExtraNonQualifiers, double extraNonQualifierSelectivity)
      Report the cost of a conglomerate scan.
    • traceCostIncludingCompositeSelectivityFromStats

      void traceCostIncludingCompositeSelectivityFromStats(CostEstimate cost, int tableNumber)
      Report the cost based on selectivities coming out of SYSSTATISTICS.
    • traceCompositeSelectivityFromStatistics

      void traceCompositeSelectivityFromStatistics(double statCompositeSelectivity)
      Report the selectivity calculated from SYSSTATISTICS.
    • traceCostIncludingStatsForIndex

      void traceCostIncludingStatsForIndex(CostEstimate cost, int tableNumber)
      Report the cost based on index statistics.
    • printToWriter

      void printToWriter(PrintWriter out)
      Print the trace so far.