Rule.cs source code in C# .NET

                        
Code:
                         / Dotnetfx_Win7_3.5.1 / Dotnetfx_Win7_3.5.1 / 3.5.1 / DEVDIV / depot / DevDiv / releases / Orcas / NetFXw7 / ndp / fx / src / DataEntity / System / Data / Query / InternalTrees / Rule.cs / 1 / Rule.cs
                        

                        
                            //---------------------------------------------------------------------- 
// 
//      Copyright (c) Microsoft Corporation.  All rights reserved.
// 
// 
// @owner  [....], [....]
//--------------------------------------------------------------------- 
 
using System;
using System.Collections.Generic; 
using System.Diagnostics;
using System.Globalization;

namespace System.Data.Query.InternalTrees 
{
    /// 
 
    /// A Rule - more specifically, a transformation rule - describes an action that is to 
    /// be taken when a specific kind of subtree is found in the tree
    /// 
 
    internal abstract class Rule
    {
        /// 

        /// The "callback" function for each rule. 
        /// Every callback function must return true if the subtree has
        /// been modified (or a new subtree has been returned); and must return false 
        /// otherwise. If the root of the subtree has not changed, but some internal details 
        /// of the subtree have changed, it is the responsibility of the rule to update any
        /// local bookkeeping information. 
        /// 
        /// The rule processing context
        /// the subtree to operate on
        /// possibly transformed subtree 
        /// transformation status - true, if there was some change; false otherwise
        internal delegate bool ProcessNodeDelegate(RuleProcessingContext context, Node subTree, out Node newSubTree); 
 
        #region private state
        private ProcessNodeDelegate m_nodeDelegate; 
        private OpType m_opType;
#endregion

        #region Constructors 
        /// 

        /// Basic constructor 
        /// 
 
        /// The OpType we're interested in processing
        /// The callback to invoke 
        protected Rule(OpType opType, ProcessNodeDelegate nodeProcessDelegate)
        {
            Debug.Assert(nodeProcessDelegate != null, "null process delegate");
            Debug.Assert(opType != OpType.NotValid, "bad OpType"); 
            Debug.Assert(opType != OpType.Leaf, "bad OpType - Leaf");
 
            m_opType = opType; 
            m_nodeDelegate = nodeProcessDelegate;
        } 
#endregion

        #region protected methods
 
        #endregion
 
        #region public methods 
        /// 

        /// Does the rule match the current node? 
        /// 
        /// the node in question
        /// true, if a match was found
        internal abstract bool Match(Node node); 

        /// 
 
        /// We need to invoke the specified callback on the subtree in question - but only 
        /// if the match succeeds
        /// 
 
        /// Current rule processing context
        /// The node (subtree) to process
        /// the (possibly) modified subtree
        /// true, if the subtree was modified 
        internal bool Apply(RuleProcessingContext ruleProcessingContext, Node node, out Node newNode)
        { 
            // invoke the real callback 
            return m_nodeDelegate(ruleProcessingContext, node, out newNode);
        } 

        /// 

        /// The OpType we're interested in transforming
        /// 
 
        internal OpType RuleOpType
        { 
            get { return m_opType; } 
        }
        #endregion 
    }

    /// 

    /// A SimpleRule is a rule that specifies a specific OpType to look for, and an 
    /// appropriate action to take when such an Op is identified
    /// 
 
    internal sealed class SimpleRule : Rule 
    {
        #region private state 
        #endregion

        #region constructors
        /// 
 
        /// Basic constructor.
        /// 
 
        /// The OpType we're interested in 
        /// The callback to invoke when we see such an Op
        internal SimpleRule(OpType opType, ProcessNodeDelegate processDelegate) 
            : base(opType, processDelegate)
        {
        }
        #endregion 

        #region overriden methods 
        internal override bool Match(Node node) 
        {
            return node.Op.OpType == this.RuleOpType; 
        }
        #endregion
    }
 
    /// 

    /// A PatternMatchRule allows for a pattern to be specified to identify interesting 
    /// subtrees, rather than just an OpType 
    /// 
    internal sealed class PatternMatchRule: Rule 
    {
        #region private state
        private Node m_pattern;
        #endregion 

        #region constructors 
        /// 
 
        /// Basic constructor
        /// 
 
        /// The pattern to look for
        /// The callback to invoke when such a pattern is identified
        internal PatternMatchRule(Node pattern, ProcessNodeDelegate processDelegate)
            : base(pattern.Op.OpType, processDelegate) 
        {
            Debug.Assert(pattern != null, "null pattern"); 
            Debug.Assert(pattern.Op != null, "null pattern Op"); 
            m_pattern = pattern;
        } 
        #endregion

        #region private methods
        private bool Match(Node pattern, Node original) 
        {
            if (pattern.Op.OpType == OpType.Leaf) 
                return true; 
            if (pattern.Op.OpType != original.Op.OpType)
                return false; 
            if (pattern.Children.Count != original.Children.Count)
                return false;
            for (int i = 0; i < pattern.Children.Count; i++)
                if (!Match(pattern.Children[i], original.Children[i])) 
                    return false;
            return true; 
        } 
        #endregion
 
        #region overridden methods
        internal override bool Match(Node node)
        {
            return Match(m_pattern, node); 
        }
        #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.Diagnostics;
using System.Globalization;

namespace System.Data.Query.InternalTrees 
{
    /// 
 
    /// A Rule - more specifically, a transformation rule - describes an action that is to 
    /// be taken when a specific kind of subtree is found in the tree
    /// 
 
    internal abstract class Rule
    {
        /// 

        /// The "callback" function for each rule. 
        /// Every callback function must return true if the subtree has
        /// been modified (or a new subtree has been returned); and must return false 
        /// otherwise. If the root of the subtree has not changed, but some internal details 
        /// of the subtree have changed, it is the responsibility of the rule to update any
        /// local bookkeeping information. 
        /// 
        /// The rule processing context
        /// the subtree to operate on
        /// possibly transformed subtree 
        /// transformation status - true, if there was some change; false otherwise
        internal delegate bool ProcessNodeDelegate(RuleProcessingContext context, Node subTree, out Node newSubTree); 
 
        #region private state
        private ProcessNodeDelegate m_nodeDelegate; 
        private OpType m_opType;
#endregion

        #region Constructors 
        /// 

        /// Basic constructor 
        /// 
 
        /// The OpType we're interested in processing
        /// The callback to invoke 
        protected Rule(OpType opType, ProcessNodeDelegate nodeProcessDelegate)
        {
            Debug.Assert(nodeProcessDelegate != null, "null process delegate");
            Debug.Assert(opType != OpType.NotValid, "bad OpType"); 
            Debug.Assert(opType != OpType.Leaf, "bad OpType - Leaf");
 
            m_opType = opType; 
            m_nodeDelegate = nodeProcessDelegate;
        } 
#endregion

        #region protected methods
 
        #endregion
 
        #region public methods 
        /// 

        /// Does the rule match the current node? 
        /// 
        /// the node in question
        /// true, if a match was found
        internal abstract bool Match(Node node); 

        /// 
 
        /// We need to invoke the specified callback on the subtree in question - but only 
        /// if the match succeeds
        /// 
 
        /// Current rule processing context
        /// The node (subtree) to process
        /// the (possibly) modified subtree
        /// true, if the subtree was modified 
        internal bool Apply(RuleProcessingContext ruleProcessingContext, Node node, out Node newNode)
        { 
            // invoke the real callback 
            return m_nodeDelegate(ruleProcessingContext, node, out newNode);
        } 

        /// 

        /// The OpType we're interested in transforming
        /// 
 
        internal OpType RuleOpType
        { 
            get { return m_opType; } 
        }
        #endregion 
    }

    /// 

    /// A SimpleRule is a rule that specifies a specific OpType to look for, and an 
    /// appropriate action to take when such an Op is identified
    /// 
 
    internal sealed class SimpleRule : Rule 
    {
        #region private state 
        #endregion

        #region constructors
        /// 
 
        /// Basic constructor.
        /// 
 
        /// The OpType we're interested in 
        /// The callback to invoke when we see such an Op
        internal SimpleRule(OpType opType, ProcessNodeDelegate processDelegate) 
            : base(opType, processDelegate)
        {
        }
        #endregion 

        #region overriden methods 
        internal override bool Match(Node node) 
        {
            return node.Op.OpType == this.RuleOpType; 
        }
        #endregion
    }
 
    /// 

    /// A PatternMatchRule allows for a pattern to be specified to identify interesting 
    /// subtrees, rather than just an OpType 
    /// 
    internal sealed class PatternMatchRule: Rule 
    {
        #region private state
        private Node m_pattern;
        #endregion 

        #region constructors 
        /// 
 
        /// Basic constructor
        /// 
 
        /// The pattern to look for
        /// The callback to invoke when such a pattern is identified
        internal PatternMatchRule(Node pattern, ProcessNodeDelegate processDelegate)
            : base(pattern.Op.OpType, processDelegate) 
        {
            Debug.Assert(pattern != null, "null pattern"); 
            Debug.Assert(pattern.Op != null, "null pattern Op"); 
            m_pattern = pattern;
        } 
        #endregion

        #region private methods
        private bool Match(Node pattern, Node original) 
        {
            if (pattern.Op.OpType == OpType.Leaf) 
                return true; 
            if (pattern.Op.OpType != original.Op.OpType)
                return false; 
            if (pattern.Children.Count != original.Children.Count)
                return false;
            for (int i = 0; i < pattern.Children.Count; i++)
                if (!Match(pattern.Children[i], original.Children[i])) 
                    return false;
            return true; 
        } 
        #endregion
 
        #region overridden methods
        internal override bool Match(Node node)
        {
            return Match(m_pattern, node); 
        }
        #endregion 
    } 
}

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
                        

                        

                        
                        

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