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/ Dotnetfx_Vista_SP2 / Dotnetfx_Vista_SP2 / 8.0.50727.4016 / DEVDIV / depot / DevDiv / releases / Orcas / QFE / ndp / fx / src / DataEntity / System / Data / Query / InternalTrees / RuleProcessor.cs / 2 / RuleProcessor.cs
//---------------------------------------------------------------------- //// Copyright (c) Microsoft Corporation. All rights reserved. // // // @owner [....], [....] //--------------------------------------------------------------------- using System; using System.Collections.Generic; using System.Collections.ObjectModel; using System.Globalization; using System.Diagnostics; namespace System.Data.Query.InternalTrees { #region RuleProcessor ////// The RuleProcessor helps apply a set of rules to a query tree /// internal class RuleProcessor { #region private state ////// A lookup table for rules. /// The lookup table is an array indexed by OpType and each entry has a list of rules. /// private Dictionarym_processedNodeMap; #endregion #region constructors /// /// Initializes a new RuleProcessor /// internal RuleProcessor() { // Build up the accelerator tables m_processedNodeMap = new Dictionary(); } #endregion #region private methods private static bool ApplyRulesToNode(RuleProcessingContext context, ReadOnlyCollection > rules, Node currentNode, out Node newNode) { newNode = currentNode; // Apply any pre-rule delegates context.PreProcess(currentNode); foreach (Rule r in rules[(int)currentNode.Op.OpType]) { if (!r.Match(currentNode)) { continue; } // Did the rule modify the subtree? if (r.Apply(context, currentNode, out newNode)) { // The node has changed; don't try to apply any more rules context.PostProcess(newNode, r); return true; } else { Debug.Assert(newNode == currentNode, "Liar! This rule should have returned 'true'"); } } context.PostProcess(currentNode, null); return false; } /// /// Apply rules to the current subtree in a bottom-up fashion. /// /// Current rule processing context /// The look-up table with the rules to be applied /// Current subtree /// Parent node /// Index of this child within the parent ///the result of the transformation private Node ApplyRulesToSubtree(RuleProcessingContext context, ReadOnlyCollection> rules, Node subTreeRoot, Node parent, int childIndexInParent) { int loopCount = 0; Dictionary localProcessedMap = new Dictionary (); SubTreeId subTreeId; while (true) { // Am I looping forever Debug.Assert(loopCount < 12, "endless loops?"); loopCount++; // // We may need to update state regardless of whether this subTree has // changed after it has been processed last. For example, it may be // affected by transformation in its siblings due to external references. // context.PreProcessSubTree(subTreeRoot); subTreeId = new SubTreeId(context, subTreeRoot, parent, childIndexInParent); // Have I seen this subtree already? Just return, if so if (m_processedNodeMap.ContainsKey(subTreeId)) { return subTreeRoot; } // Avoid endless loops here - avoid cycles of 2 or more if (localProcessedMap.ContainsKey(subTreeId)) { // mark this subtree as processed m_processedNodeMap[subTreeId] = subTreeId; break; } // Keep track of this one localProcessedMap[subTreeId] = subTreeId; // Walk my children for (int i = 0; i < subTreeRoot.Children.Count; i++) { subTreeRoot.Children[i] = ApplyRulesToSubtree(context, rules, subTreeRoot.Children[i], subTreeRoot, i); } // Apply rules to myself. If no transformations were performed, // then mark this subtree as processed, and break out Node newSubTreeRoot; if (!ApplyRulesToNode(context, rules, subTreeRoot, out newSubTreeRoot)) { Debug.Assert(subTreeRoot == newSubTreeRoot); // mark this subtree as processed m_processedNodeMap[subTreeId] = subTreeId; break; } subTreeRoot = newSubTreeRoot; } return subTreeRoot; } #endregion #region public methods /// /// Apply a set of rules to the subtree /// /// Rule processing context /// current subtree ///transformed subtree internal Node ApplyRulesToSubtree(RuleProcessingContext context, ReadOnlyCollection> rules, Node subTreeRoot) { return ApplyRulesToSubtree(context, rules, subTreeRoot, null, 0); } #endregion } #endregion #region SubTreeId internal class SubTreeId { #region private state public Node m_subTreeRoot; private int m_hashCode; private Node m_parent; private int m_parentHashCode; private int m_childIndex; #endregion #region constructors internal SubTreeId(RuleProcessingContext context, Node node, Node parent, int childIndex) { m_subTreeRoot = node; m_parent = parent; m_childIndex = childIndex; m_hashCode = context.GetHashCode(node); m_parentHashCode = parent == null ? 0 : context.GetHashCode(parent); } #endregion #region public surface public override int GetHashCode() { return m_hashCode; } public override bool Equals(object obj) { SubTreeId other = obj as SubTreeId; return ((other != null) && (m_hashCode == other.m_hashCode) && ((other.m_subTreeRoot == this.m_subTreeRoot) || ((other.m_parent == this.m_parent) && (other.m_childIndex == this.m_childIndex)))); } #endregion } #endregion #region RuleProcessingContext /// /// Delegate that describes the processing /// /// RuleProcessing context /// Node to process internal delegate void OpDelegate(RuleProcessingContext context, Node node); ////// A RuleProcessingContext encapsulates information needed by various rules to process /// the query tree. /// internal abstract class RuleProcessingContext { #region public surface internal Command Command { get { return m_command; } } ////// Callback function to be applied to a node before any rules are applied /// /// the node internal virtual void PreProcess(Node node) { } ////// Callback function to be applied to the subtree rooted at the given /// node before any rules are applied /// /// the node that is the root of the subtree internal virtual void PreProcessSubTree(Node node) { } ////// Callback function to be applied on a node after a rule has been applied /// that has modified the node /// /// current node /// the rule that modified the node internal virtual void PostProcess(Node node, Rule rule) { } ////// Get the hashcode for this node - to ensure that we don't loop forever /// /// current node ///int hashcode internal virtual int GetHashCode(Node node) { return node.GetHashCode(); } #endregion #region constructors internal RuleProcessingContext(Command command) { m_command = command; } #endregion #region private state private Command m_command; #endregion } #endregion } // File provided for Reference Use Only by Microsoft Corporation (c) 2007. //---------------------------------------------------------------------- //// Copyright (c) Microsoft Corporation. All rights reserved. // // // @owner [....], [....] //--------------------------------------------------------------------- using System; using System.Collections.Generic; using System.Collections.ObjectModel; using System.Globalization; using System.Diagnostics; namespace System.Data.Query.InternalTrees { #region RuleProcessor ////// The RuleProcessor helps apply a set of rules to a query tree /// internal class RuleProcessor { #region private state ////// A lookup table for rules. /// The lookup table is an array indexed by OpType and each entry has a list of rules. /// private Dictionarym_processedNodeMap; #endregion #region constructors /// /// Initializes a new RuleProcessor /// internal RuleProcessor() { // Build up the accelerator tables m_processedNodeMap = new Dictionary(); } #endregion #region private methods private static bool ApplyRulesToNode(RuleProcessingContext context, ReadOnlyCollection > rules, Node currentNode, out Node newNode) { newNode = currentNode; // Apply any pre-rule delegates context.PreProcess(currentNode); foreach (Rule r in rules[(int)currentNode.Op.OpType]) { if (!r.Match(currentNode)) { continue; } // Did the rule modify the subtree? if (r.Apply(context, currentNode, out newNode)) { // The node has changed; don't try to apply any more rules context.PostProcess(newNode, r); return true; } else { Debug.Assert(newNode == currentNode, "Liar! This rule should have returned 'true'"); } } context.PostProcess(currentNode, null); return false; } /// /// Apply rules to the current subtree in a bottom-up fashion. /// /// Current rule processing context /// The look-up table with the rules to be applied /// Current subtree /// Parent node /// Index of this child within the parent ///the result of the transformation private Node ApplyRulesToSubtree(RuleProcessingContext context, ReadOnlyCollection> rules, Node subTreeRoot, Node parent, int childIndexInParent) { int loopCount = 0; Dictionary localProcessedMap = new Dictionary (); SubTreeId subTreeId; while (true) { // Am I looping forever Debug.Assert(loopCount < 12, "endless loops?"); loopCount++; // // We may need to update state regardless of whether this subTree has // changed after it has been processed last. For example, it may be // affected by transformation in its siblings due to external references. // context.PreProcessSubTree(subTreeRoot); subTreeId = new SubTreeId(context, subTreeRoot, parent, childIndexInParent); // Have I seen this subtree already? Just return, if so if (m_processedNodeMap.ContainsKey(subTreeId)) { return subTreeRoot; } // Avoid endless loops here - avoid cycles of 2 or more if (localProcessedMap.ContainsKey(subTreeId)) { // mark this subtree as processed m_processedNodeMap[subTreeId] = subTreeId; break; } // Keep track of this one localProcessedMap[subTreeId] = subTreeId; // Walk my children for (int i = 0; i < subTreeRoot.Children.Count; i++) { subTreeRoot.Children[i] = ApplyRulesToSubtree(context, rules, subTreeRoot.Children[i], subTreeRoot, i); } // Apply rules to myself. If no transformations were performed, // then mark this subtree as processed, and break out Node newSubTreeRoot; if (!ApplyRulesToNode(context, rules, subTreeRoot, out newSubTreeRoot)) { Debug.Assert(subTreeRoot == newSubTreeRoot); // mark this subtree as processed m_processedNodeMap[subTreeId] = subTreeId; break; } subTreeRoot = newSubTreeRoot; } return subTreeRoot; } #endregion #region public methods /// /// Apply a set of rules to the subtree /// /// Rule processing context /// current subtree ///transformed subtree internal Node ApplyRulesToSubtree(RuleProcessingContext context, ReadOnlyCollection> rules, Node subTreeRoot) { return ApplyRulesToSubtree(context, rules, subTreeRoot, null, 0); } #endregion } #endregion #region SubTreeId internal class SubTreeId { #region private state public Node m_subTreeRoot; private int m_hashCode; private Node m_parent; private int m_parentHashCode; private int m_childIndex; #endregion #region constructors internal SubTreeId(RuleProcessingContext context, Node node, Node parent, int childIndex) { m_subTreeRoot = node; m_parent = parent; m_childIndex = childIndex; m_hashCode = context.GetHashCode(node); m_parentHashCode = parent == null ? 0 : context.GetHashCode(parent); } #endregion #region public surface public override int GetHashCode() { return m_hashCode; } public override bool Equals(object obj) { SubTreeId other = obj as SubTreeId; return ((other != null) && (m_hashCode == other.m_hashCode) && ((other.m_subTreeRoot == this.m_subTreeRoot) || ((other.m_parent == this.m_parent) && (other.m_childIndex == this.m_childIndex)))); } #endregion } #endregion #region RuleProcessingContext /// /// Delegate that describes the processing /// /// RuleProcessing context /// Node to process internal delegate void OpDelegate(RuleProcessingContext context, Node node); ////// A RuleProcessingContext encapsulates information needed by various rules to process /// the query tree. /// internal abstract class RuleProcessingContext { #region public surface internal Command Command { get { return m_command; } } ////// Callback function to be applied to a node before any rules are applied /// /// the node internal virtual void PreProcess(Node node) { } ////// Callback function to be applied to the subtree rooted at the given /// node before any rules are applied /// /// the node that is the root of the subtree internal virtual void PreProcessSubTree(Node node) { } ////// Callback function to be applied on a node after a rule has been applied /// that has modified the node /// /// current node /// the rule that modified the node internal virtual void PostProcess(Node node, Rule rule) { } ////// Get the hashcode for this node - to ensure that we don't loop forever /// /// current node ///int hashcode internal virtual int GetHashCode(Node node) { return node.GetHashCode(); } #endregion #region constructors internal RuleProcessingContext(Command command) { m_command = command; } #endregion #region private state private Command m_command; #endregion } #endregion } // File provided for Reference Use Only by Microsoft Corporation (c) 2007.
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