object StarSchemaDetection extends PredicateHelper with SQLConfHelper
Encapsulates star-schema detection logic.
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- final def !=(arg0: Any): Boolean
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- def buildBalancedPredicate(expressions: Seq[Expression], op: (Expression, Expression) => Expression): Expression
Builds a balanced output predicate in bottom up approach, by applying binary operator op pair by pair on input predicates exprs recursively.
Builds a balanced output predicate in bottom up approach, by applying binary operator op pair by pair on input predicates exprs recursively. Example: exprs = [a, b, c, d], op = And, returns (a And b) And (c And d) exprs = [a, b, c, d, e, f], op = And, returns ((a And b) And (c And d)) And (e And f)
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- PredicateHelper
- def canEvaluate(expr: Expression, plan: LogicalPlan): Boolean
Returns true if
exprcan be evaluated using only the output ofplan.Returns true if
exprcan be evaluated using only the output ofplan. This method can be used to determine when it is acceptable to move expression evaluation within a query plan.For example consider a join between two relations R(a, b) and S(c, d).
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canEvaluate(EqualTo(a,b), R)returnstrue-canEvaluate(EqualTo(a,c), R)returnsfalse-canEvaluate(Literal(1), R)returnstrueas literals CAN be evaluated on any plan- Attributes
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- def canEvaluateWithinJoin(expr: Expression): Boolean
Returns true iff
exprcould be evaluated as a condition within join.Returns true iff
exprcould be evaluated as a condition within join.- Attributes
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- def conf: SQLConf
The active config object within the current scope.
The active config object within the current scope. See SQLConf.get for more information.
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- final def eq(arg0: AnyRef): Boolean
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- def extractPredicatesWithinOutputSet(condition: Expression, outputSet: AttributeSet): Option[Expression]
Returns a filter that its reference is a subset of
outputSetand it contains the maximum constraints fromcondition.Returns a filter that its reference is a subset of
outputSetand it contains the maximum constraints fromcondition. This is used for predicate pushdown. When there is no such filter,Noneis returned.- Attributes
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- def finalize(): Unit
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- def findExpressionAndTrackLineageDown(exp: Expression, plan: LogicalPlan): Option[(Expression, LogicalPlan)]
Find the origin of where the input references of expression exp were scanned in the tree of plan, and if they originate from a single leaf node.
Find the origin of where the input references of expression exp were scanned in the tree of plan, and if they originate from a single leaf node. Returns optional tuple with Expression, undoing any projections and aliasing that has been done along the way from plan to origin, and the origin LeafNode plan from which all the exp
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- def findStarJoins(input: Seq[LogicalPlan], conditions: Seq[Expression]): Seq[LogicalPlan]
Star schema consists of one or more fact tables referencing a number of dimension tables.
Star schema consists of one or more fact tables referencing a number of dimension tables. In general, star-schema joins are detected using the following conditions:
- Informational RI constraints (reliable detection) + Dimension contains a primary key that is being joined to the fact table. + Fact table contains foreign keys referencing multiple dimension tables. 2. Cardinality based heuristics + Usually, the table with the highest cardinality is the fact table. + Table being joined with the most number of tables is the fact table.
To detect star joins, the algorithm uses a combination of the above two conditions. The fact table is chosen based on the cardinality heuristics, and the dimension tables are chosen based on the RI constraints. A star join will consist of the largest fact table joined with the dimension tables on their primary keys. To detect that a column is a primary key, the algorithm uses table and column statistics.
The algorithm currently returns only the star join with the largest fact table. Choosing the largest fact table on the driving arm to avoid large inners is in general a good heuristic. This restriction will be lifted to observe multiple star joins.
The highlights of the algorithm are the following:
Given a set of joined tables/plans, the algorithm first verifies if they are eligible for star join detection. An eligible plan is a base table access with valid statistics. A base table access represents Project or Filter operators above a LeafNode. Conservatively, the algorithm only considers base table access as part of a star join since they provide reliable statistics. This restriction can be lifted with the CBO enablement by default.
If some of the plans are not base table access, or statistics are not available, the algorithm returns an empty star join plan since, in the absence of statistics, it cannot make good planning decisions. Otherwise, the algorithm finds the table with the largest cardinality (number of rows), which is assumed to be a fact table.
Next, it computes the set of dimension tables for the current fact table. A dimension table is assumed to be in a RI relationship with a fact table. To infer column uniqueness, the algorithm compares the number of distinct values with the total number of rows in the table. If their relative difference is within certain limits (i.e. ndvMaxError * 2, adjusted based on 1TB TPC-DS data), the column is assumed to be unique.
- def getAliasMap(exprs: Seq[NamedExpression]): AttributeMap[Alias]
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- def getAliasMap(plan: Aggregate): AttributeMap[Alias]
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- def getAliasMap(plan: Project): AttributeMap[Alias]
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- def isLikelySelective(e: Expression): Boolean
Returns whether an expression is likely to be selective
Returns whether an expression is likely to be selective
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- def isNullIntolerant(expr: Expression): Boolean
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- def isTraceEnabled(): Boolean
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- def logName: String
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- def outputWithNullability(output: Seq[Attribute], nonNullAttrExprIds: Seq[ExprId]): Seq[Attribute]
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- def reorderStarJoins(input: Seq[(LogicalPlan, InnerLike)], conditions: Seq[Expression]): Seq[(LogicalPlan, InnerLike)]
Reorders a star join based on heuristics.
Reorders a star join based on heuristics. It is called from ReorderJoin if CBO is disabled. 1) Finds the star join with the largest fact table. 2) Places the fact table the driving arm of the left-deep tree. This plan avoids large table access on the inner, and thus favor hash joins. 3) Applies the most selective dimensions early in the plan to reduce the amount of data flow.
- def replaceAlias(expr: Expression, aliasMap: AttributeMap[Alias]): Expression
Replace all attributes, that reference an alias, with the aliased expression
Replace all attributes, that reference an alias, with the aliased expression
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- AliasHelper
- def replaceAliasButKeepName(expr: NamedExpression, aliasMap: AttributeMap[Alias]): NamedExpression
Replace all attributes, that reference an alias, with the aliased expression, but keep the name of the outermost attribute.
Replace all attributes, that reference an alias, with the aliased expression, but keep the name of the outermost attribute.
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- def splitConjunctivePredicates(condition: Expression): Seq[Expression]
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- def splitDisjunctivePredicates(condition: Expression): Seq[Expression]
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- def trimAliases(e: Expression): Expression
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- def trimNonTopLevelAliases[T <: Expression](e: T): T
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