//---------------------------------------------------------------------
//
// Copyright (c) Microsoft Corporation. All rights reserved.
//
//
// @owner [....]
// @backupOwner [....]
//---------------------------------------------------------------------
using System;
using System.Collections.Generic;
//using System.Diagnostics; // Please use PlanCompiler.Assert instead of Debug.Assert in this class...
// It is fine to use Debug.Assert in cases where you assert an obvious thing that is supposed
// to prevent from simple mistakes during development (e.g. method argument validation
// in cases where it was you who created the variables or the variables had already been validated or
// in "else" clauses where due to code changes (e.g. adding a new value to an enum type) the default
// "else" block is chosen why the new condition should be treated separately). This kind of asserts are
// (can be) helpful when developing new code to avoid simple mistakes but have no or little value in
// the shipped product.
// PlanCompiler.Assert *MUST* be used to verify conditions in the trees. These would be assumptions
// about how the tree was built etc. - in these cases we probably want to throw an exception (this is
// what PlanCompiler.Assert does when the condition is not met) if either the assumption is not correct
// or the tree was built/rewritten not the way we thought it was.
// Use your judgment - if you rather remove an assert than ship it use Debug.Assert otherwise use
// PlanCompiler.Assert.
using System.Globalization;
using System.Data.Query.InternalTrees;
using System.Data.Metadata.Edm;
namespace System.Data.Query.PlanCompiler
{
///
/// The JoinElimination module is intended to do just that - eliminate unnecessary joins.
/// This module deals with the following kinds of joins
/// * Self-joins: The join can be eliminated, and either of the table instances can be
/// used instead
/// * Implied self-joins: Same as above
/// * PK-FK joins: (More generally, UniqueKey-FK joins): Eliminate the join, and use just the FK table, if no
/// column of the PK table is used (other than the join condition)
/// * PK-PK joins: Eliminate the right side table, if we have a left-outer join
///
internal class JoinElimination : BasicOpVisitorOfNode
{
#region private constants
private const string SqlServerCeNamespaceName = "SqlServerCe";
#endregion
#region private state
private PlanCompiler m_compilerState;
private Command Command { get { return m_compilerState.Command; } }
private ConstraintManager ConstraintManager { get { return m_compilerState.ConstraintManager; } }
private Dictionary m_joinGraphUnnecessaryMap = new Dictionary();
private VarRemapper m_varRemapper;
private bool m_treeModified = false;
private VarRefManager m_varRefManager;
private Nullable m_isSqlCe = null;
#endregion
#region constructors
private JoinElimination(PlanCompiler compilerState)
{
m_compilerState = compilerState;
m_varRemapper = new VarRemapper(m_compilerState.Command);
m_varRefManager = new VarRefManager(m_compilerState.Command);
}
#endregion
#region public surface
internal static bool Process(PlanCompiler compilerState)
{
JoinElimination je = new JoinElimination(compilerState);
je.Process();
return je.m_treeModified;
}
#endregion
#region private methods
///
/// Invokes the visitor
///
private void Process()
{
this.Command.Root = VisitNode(this.Command.Root);
}
#region JoinHelpers
#region Building JoinGraphs
///
/// Do we need to build a join graph for this node - returns false, if we've already
/// processed this
///
///
///
private bool NeedsJoinGraph(Node joinNode)
{
return !m_joinGraphUnnecessaryMap.ContainsKey(joinNode);
}
///
/// Do the real processing of the join graph.
///
/// current join node
/// modified join node
private Node ProcessJoinGraph(Node joinNode)
{
// Build the join graph
JoinGraph joinGraph = new JoinGraph(this.Command, this.ConstraintManager, this.m_varRefManager, joinNode, this.IsSqlCeProvider);
// Get the transformed node tree
VarMap remappedVars;
Dictionary processedNodes;
Node newNode = joinGraph.DoJoinElimination(out remappedVars, out processedNodes);
// Get the set of vars that need to be renamed
foreach (KeyValuePair kv in remappedVars)
{
m_varRemapper.AddMapping(kv.Key, kv.Value);
}
// get the set of nodes that have already been processed
foreach (Node n in processedNodes.Keys)
{
m_joinGraphUnnecessaryMap[n] = n;
}
return newNode;
}
///
/// Indicates whether we are running against a SQL CE provider or not.
///
private bool IsSqlCeProvider
{
get
{
if (!m_isSqlCe.HasValue)
{
// Figure out if we are using SQL CE by asking the store provider manifest for its namespace name.
PlanCompiler.Assert(m_compilerState != null, "Plan compiler cannot be null");
var sspace = (StoreItemCollection)m_compilerState.MetadataWorkspace.GetItemCollection(Metadata.Edm.DataSpace.SSpace);
if (sspace != null)
{
m_isSqlCe = sspace.StoreProviderManifest.NamespaceName == JoinElimination.SqlServerCeNamespaceName;
}
}
// If the sspace was null then m_isSqlCe still doesn't have a value. Use 'false' as default.
return m_isSqlCe.HasValue ? m_isSqlCe.Value : false;
}
}
///
/// Default handler for a node. Simply visits the children, then handles any var
/// remapping, and then recomputes the node info
///
///
///
private Node VisitDefaultForAllNodes(Node n)
{
VisitChildren(n);
m_varRemapper.RemapNode(n);
this.Command.RecomputeNodeInfo(n);
return n;
}
#endregion
#endregion
#region Visitor overrides
///
/// Invokes default handling for a node and adds the child-parent tracking info to the VarRefManager.
///
///
///
protected override Node VisitDefault(Node n)
{
m_varRefManager.AddChildren(n);
return VisitDefaultForAllNodes(n);
}
#region RelOps
#region JoinOps
///
/// Build a join graph for this node for this node if necessary, and process it
///
/// current join op
/// current join node
///
protected override Node VisitJoinOp(JoinBaseOp op, Node joinNode)
{
Node newNode;
// Build and process a join graph if necessary
if (NeedsJoinGraph(joinNode))
{
newNode = ProcessJoinGraph(joinNode);
if (newNode != joinNode)
{
m_treeModified = true;
}
}
else
{
newNode = joinNode;
}
// Now do the default processing (ie) visit the children, compute the nodeinfo etc.
return VisitDefaultForAllNodes(newNode);
}
#endregion
#endregion
#endregion
#endregion
}
}