QueryOpcode.cs source code in C# .NET

Source code for the .NET framework in C#

                        

Code:

/ WCF / WCF / 3.5.30729.1 / untmp / Orcas / SP / ndp / cdf / src / WCF / ServiceModel / System / ServiceModel / Dispatcher / QueryOpcode.cs / 1 / QueryOpcode.cs

                            //------------------------------------------------------------ 
// Copyright (c) Microsoft Corporation.  All rights reserved.
//-----------------------------------------------------------
namespace System.ServiceModel.Dispatcher
{ 
    using System.Diagnostics;
    using System.ServiceModel.Channels; 
    using System.Collections; 
    using System.Collections.Generic;
    using System.Threading; 

    internal enum OpcodeID
    {
        NoOp, 
        SubExpr,
        // Flow opcodes 
        Branch, 
        JumpIfNot,
        Filter, 
        Function,
        XsltFunction,
        XsltInternalFunction,
        Cast, 
        QueryTree,
        BlockEnd, 
        SubRoutine, 
        // Set Opcodes
        Ordinal, 
        LiteralOrdinal,
        Empty,
        Union,
        Merge, 
        // Boolean opcodes
        ApplyBoolean, 
        StartBoolean, 
        EndBoolean,
        // Relational opcodes 
        Relation,
        StringEquals,
        NumberEquals,
        StringEqualsBranch, 
        NumberEqualsBranch,
        NumberRelation, 
        NumberInterval, 
        NumberIntervalBranch,
        // Select/Node Operators 
        Select,
        InitialSelect,
        SelectRoot,
        // Stack operators 
        PushXsltVariable,
        PushBool, 
        PushString, 
        PushDouble,
        PushContextNode, 
        PushNodeSequence,
        PushPosition,
        PopSequenceToValueStack,
        PopSequenceToSequenceStack, 
        PopContextNodes,
        PushContextCopy, 
        PopValueFrame, 
        // Math opcode
        Plus, 
        Minus,
        Multiply,
        Divide,
        Mod, 
        Negate,
        // Specialized String operators 
        StringPrefix, 
        StringPrefixBranch,
        // Results 
        MatchAlways,
        MatchQueryResult,
        MatchFilterResult,
        MatchMultipleFilterResult, 
        MatchSingleFx,
        MatchMultipleFx 
    } 

    internal enum OpcodeFlags 
    {
        None = 0x00000000,
        Single = 0x00000001,
        Branch = 0x00000002, 
        Result = 0x00000004,
        Jump = 0x00000008, 
        Literal = 0x00000010, 
        Select = 0x00000020,
        Deleted = 0x00000040, 
        InConditional = 0x00000080,
        NoContextCopy = 0x00000100,
        InitialSelect = 0x00000200,
        CompressableSelect = 0x00000400, 
        FxMatch = 0x00000800,
    } 
 
    internal abstract class Opcode
    { 
        protected OpcodeFlags flags;
        protected Opcode next;
        OpcodeID opcodeID;
        protected Opcode prev; 
#if DEBUG
        // debugging aid. Because C# references do not have displayble numeric values, hard to deduce the 
        // graph structure to see what opcode is connected to what 
        static long nextUniqueId = 0;
        internal long uniqueID; 
#endif
        internal Opcode(OpcodeID id)
        {
            this.opcodeID = id; 
            this.flags = OpcodeFlags.Single;
#if DEBUG 
            this.uniqueID = Opcode.NextUniqueId(); 
#endif
        } 

        internal OpcodeFlags Flags
        {
            get 
            {
                return this.flags; 
            } 
            set
            { 
                this.flags = value;
            }
        }
 
        internal OpcodeID ID
        { 
            get 
            {
                return this.opcodeID; 
            }
        }

        internal Opcode Next 
        {
            get 
            { 
                return this.next;
            } 
            set
            {
                this.next = value;
            } 
        }
 
        internal Opcode Prev 
        {
            get 
            {
                return this.prev;
            }
            set 
            {
                this.prev = value; 
            } 
        }
 
#if DEBUG
        static long NextUniqueId()
        {
            return Interlocked.Increment(ref Opcode.nextUniqueId); 
        }
#endif 
 
        internal virtual void Add(Opcode op)
        { 
            DiagnosticUtility.DebugAssert(null != op, "");
            DiagnosticUtility.DebugAssert(null != this.prev, "");

            // Create a branch that will include both this and the new opcode 
            this.prev.AddBranch(op);
        } 
 
        internal virtual void AddBranch(Opcode opcode)
        { 
            DiagnosticUtility.DebugAssert(null != opcode, "");
            // Replace what follows this opcode with a branch containing .next and the new opcode
            // If this opcode is a conditional, then since the tree structure is about to change, conditional
            // reachability for everything that follows is about to change. 
            // 1. Remove .next from the conditional's AlwaysBranch Table.
            // 2. Create the new branch structure. 
            // 3. The branch, once in the tree, will fix up all conditional jumps 
            Opcode next = this.next;
            if (this.TestFlag(OpcodeFlags.InConditional)) 
            {
                this.DelinkFromConditional(next);
            }
 
            BranchOpcode branch = new BranchOpcode();
            this.next = null; 
            this.Attach(branch); 

            if (null != next) 
            {
                DiagnosticUtility.DebugAssert(OpcodeID.Branch != next.ID, "");
                branch.Add(next);
            } 
            branch.Add(opcode);
        } 
 
        internal void Attach(Opcode op)
        { 
            DiagnosticUtility.DebugAssert(null == this.next, "");
            this.next = op;
            op.prev = this;
        } 

        internal virtual void CollectXPathFilters(ICollection filters) 
        { 
            if(this.next != null)
            { 
                this.next.CollectXPathFilters(filters);
            }
        }
 
        internal virtual bool IsEquivalentForAdd(Opcode opcode)
        { 
            return (this.ID == opcode.ID); 
        }
 
        internal virtual void DelinkFromConditional(Opcode child)
        {
            DiagnosticUtility.DebugAssert(this.TestFlag(OpcodeFlags.InConditional), "");
            if (this.TestFlag(OpcodeFlags.InConditional)) 
            {
                ((QueryConditionalBranchOpcode) this.prev).RemoveAlwaysBranch(child); 
            } 
        }
 
        internal Opcode DetachChild()
        {
            Opcode child = this.next;
            if(child != null) 
            {
                if (this.IsInConditional()) 
                { 
                    this.DelinkFromConditional(child);
                } 
            }

            this.next = null;
            child.prev = null; 

            return child; 
        } 

        internal void DetachFromParent() 
        {
            Opcode parent = this.prev;
            if(parent != null)
            { 
                parent.DetachChild();
            } 
        } 

        internal virtual bool Equals(Opcode op) 
        {
            return (op.ID == this.ID);
        }
 
        internal virtual Opcode Eval(ProcessingContext context)
        { 
            return this.next; 
        }
 
        internal virtual Opcode Eval(NodeSequence sequence, SeekableXPathNavigator node)
        {
            throw DiagnosticUtility.ExceptionUtility.ThrowHelperCritical(new QueryProcessingException(QueryProcessingError.Unexpected));
        } 

        internal virtual Opcode EvalSpecial(ProcessingContext context) 
        { 
            return this.Eval(context);
        } 

        internal virtual bool IsInConditional()
        {
            return this.TestFlag(OpcodeFlags.InConditional); 
        }
 
        internal bool IsReachableFromConditional() 
        {
            return (null != this.prev && this.prev.IsInConditional()); 
        }

        internal virtual Opcode Locate(Opcode opcode)
        { 
            DiagnosticUtility.DebugAssert(null != opcode, "");
 
            if (null != this.next && this.next.Equals(opcode)) 
            {
                return this.next; 
            }

            return null;
        } 

        internal virtual void LinkToConditional(Opcode child) 
        { 
            DiagnosticUtility.DebugAssert(this.TestFlag(OpcodeFlags.InConditional), "");
            if (this.TestFlag(OpcodeFlags.InConditional)) 
            {
                ((QueryConditionalBranchOpcode) this.prev).AddAlwaysBranch(this, child);
            }
        } 

        internal virtual void Remove() 
        { 
            if (null == this.next)
            { 
                Opcode prevOpcode = this.prev;
                if (null != prevOpcode)
                {
                    prevOpcode.RemoveChild(this); 
                    prevOpcode.Remove();
                } 
            } 
        }
 
        internal virtual void RemoveChild(Opcode opcode)
        {
            DiagnosticUtility.DebugAssert(null != opcode, "");
            DiagnosticUtility.DebugAssert(this.next == opcode, ""); 

            if (this.IsInConditional()) 
            { 
                this.DelinkFromConditional(opcode);
            } 

            opcode.prev = null;
            this.next = null;
            opcode.Flags |= OpcodeFlags.Deleted; 
        }
 
        internal virtual void Replace(Opcode replace, Opcode with) 
        {
            DiagnosticUtility.DebugAssert(null != replace && null != with, ""); 
            if (this.next == replace)
            {
                bool isConditional = this.IsInConditional();
                if (isConditional) 
                {
                    this.DelinkFromConditional(this.next); 
                } 
                this.next.prev = null;
                this.next = with; 
                with.prev = this;
                if (isConditional)
                {
                    this.LinkToConditional(with); 
                }
            } 
        } 

        internal bool TestFlag(OpcodeFlags flag) 
        {
            return (0 != (this.flags & flag));
        }
 
#if DEBUG_FILTER
        public override string ToString() 
        { 
#if DEBUG
            return string.Format("{0}(#{1})", this.opcodeID.ToString(), this.uniqueID); 
#else
return this.opcodeID.ToString();
#endif
        } 
#endif
 
        internal virtual void Trim() 
        {
            if(this.next != null) 
            {
                this.next.Trim();
            }
        } 
    }
 
    internal struct OpcodeBlock 
    {
        Opcode first; 
        Opcode last;

        internal OpcodeBlock(Opcode first)
        { 
            this.first = first;
            this.first.Prev = null; 
 
            for(this.last = this.first; this.last.Next != null; this.last = this.last.Next);
        } 

#if FILTEROPTIMIZER
        internal OpcodeBlock(Opcode first, Opcode last)
        { 
            this.first = first;
            this.first.Prev = null; 
            this.last = last; 
            this.Last.Next = null;
        } 
#endif

        internal Opcode First
        { 
            get
            { 
                return this.first; 
            }
        } 

        internal Opcode Last
        {
            get 
            {
                return this.last; 
            } 
        }
 
        internal void Append(Opcode opcode)
        {
            DiagnosticUtility.DebugAssert(null != opcode, "");
            if (null == this.last) 
            {
                this.first = opcode; 
                this.last = opcode; 
            }
            else 
            {
                this.last.Attach(opcode);
                opcode.Next = null;
                this.last = opcode; 
            }
        } 
 
        internal void Append(OpcodeBlock block)
        { 
            if (null == this.last)
            {
                this.first = block.first;
                this.last = block.last; 
            }
            else 
            { 
                this.last.Attach(block.first);
                this.last = block.last; 
            }
        }

        internal void DetachLast() 
        {
            if (null == this.last) 
            { 
                return;
            } 
            Opcode newLast = this.last.Prev;
            this.last.Prev = null;
            this.last = newLast;
            if (null != this.last) 
            {
                this.last.Next = null; 
            } 
        }
    } 

    internal class OpcodeList
    {
        QueryBuffer opcodes; 

        public OpcodeList(int capacity) 
        { 
            this.opcodes = new QueryBuffer(capacity);
        } 

        public int Count
        {
            get 
            {
                return this.opcodes.count; 
            } 
        }
 
        public Opcode this[int index]
        {
            get
            { 
                return this.opcodes[index];
            } 
            set 
            {
                this.opcodes[index] = value; 
            }
        }

        public void Add(Opcode opcode) 
        {
            this.opcodes.Add(opcode); 
        } 

        public int IndexOf(Opcode opcode) 
        {
            return this.opcodes.IndexOf(opcode);
        }
 
        public void Remove(Opcode opcode)
        { 
            this.opcodes.Remove(opcode); 
        }
 
        public void Trim()
        {
            this.opcodes.TrimToCount();
        } 
    }
 
} 

// File provided for Reference Use Only by Microsoft Corporation (c) 2007.
// Copyright (c) Microsoft Corporation. All rights reserved.
                        

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