internal override ObjectQueryExecutionPlan GetExecutionPlan(
            MergeOption?forMergeOption)
        {
            ObjectQueryExecutionPlan queryExecutionPlan1 = this._cachedPlan;

            if (queryExecutionPlan1 != null)
            {
                MergeOption?mergeOption = ObjectQueryState.GetMergeOption(forMergeOption, this.UserSpecifiedMergeOption);
                if (mergeOption.HasValue && mergeOption.Value != queryExecutionPlan1.MergeOption || (this._recompileRequired() || this.ObjectContext.ContextOptions.UseCSharpNullComparisonBehavior != this._useCSharpNullComparisonBehavior))
                {
                    queryExecutionPlan1 = (ObjectQueryExecutionPlan)null;
                }
            }
            if (queryExecutionPlan1 == null)
            {
                this._recompileRequired = (Func <bool>)null;
                this.ResetParameters();
                ExpressionConverter expressionConverter = this.CreateExpressionConverter();
                DbExpression        dbExpression        = expressionConverter.Convert();
                this._recompileRequired = expressionConverter.RecompileRequired;
                MergeOption mergeOption = ObjectQueryState.EnsureMergeOption(forMergeOption, this.UserSpecifiedMergeOption, expressionConverter.PropagatedMergeOption);
                this._useCSharpNullComparisonBehavior = this.ObjectContext.ContextOptions.UseCSharpNullComparisonBehavior;
                this._linqParameters = expressionConverter.GetParameters();
                if (this._linqParameters != null && this._linqParameters.Any <Tuple <ObjectParameter, QueryParameterExpression> >())
                {
                    ObjectParameterCollection parameterCollection = this.EnsureParameters();
                    parameterCollection.SetReadOnly(false);
                    foreach (Tuple <ObjectParameter, QueryParameterExpression> linqParameter in this._linqParameters)
                    {
                        ObjectParameter objectParameter = linqParameter.Item1;
                        parameterCollection.Add(objectParameter);
                    }
                    parameterCollection.SetReadOnly(true);
                }
                QueryCacheManager queryCacheManager = (QueryCacheManager)null;
                LinqQueryCacheKey key1 = (LinqQueryCacheKey)null;
                string            key2;
                if (this.PlanCachingEnabled && !this._recompileRequired() && ExpressionKeyGen.TryGenerateKey(dbExpression, out key2))
                {
                    key1 = new LinqQueryCacheKey(key2, this.Parameters == null ? 0 : this.Parameters.Count, this.Parameters == null ? (string)null : this.Parameters.GetCacheKey(), expressionConverter.PropagatedSpan == null ? (string)null : expressionConverter.PropagatedSpan.GetCacheKey(), mergeOption, this.EffectiveStreamingBehavior, this._useCSharpNullComparisonBehavior, this.ElementType);
                    queryCacheManager = this.ObjectContext.MetadataWorkspace.GetQueryCacheManager();
                    ObjectQueryExecutionPlan queryExecutionPlan2 = (ObjectQueryExecutionPlan)null;
                    if (queryCacheManager.TryCacheLookup <LinqQueryCacheKey, ObjectQueryExecutionPlan>(key1, out queryExecutionPlan2))
                    {
                        queryExecutionPlan1 = queryExecutionPlan2;
                    }
                }
                if (queryExecutionPlan1 == null)
                {
                    queryExecutionPlan1 = this._objectQueryExecutionPlanFactory.Prepare(this.ObjectContext, DbQueryCommandTree.FromValidExpression(this.ObjectContext.MetadataWorkspace, DataSpace.CSpace, dbExpression, !this._useCSharpNullComparisonBehavior), this.ElementType, mergeOption, this.EffectiveStreamingBehavior, expressionConverter.PropagatedSpan, (IEnumerable <Tuple <ObjectParameter, QueryParameterExpression> >)null, expressionConverter.AliasGenerator);
                    if (key1 != null)
                    {
                        QueryCacheEntry inQueryCacheEntry  = new QueryCacheEntry((QueryCacheKey)key1, (object)queryExecutionPlan1);
                        QueryCacheEntry outQueryCacheEntry = (QueryCacheEntry)null;
                        if (queryCacheManager.TryLookupAndAdd(inQueryCacheEntry, out outQueryCacheEntry))
                        {
                            queryExecutionPlan1 = (ObjectQueryExecutionPlan)outQueryCacheEntry.GetTarget();
                        }
                    }
                }
                this._cachedPlan = queryExecutionPlan1;
            }
            if (this._linqParameters != null)
            {
                foreach (Tuple <ObjectParameter, QueryParameterExpression> linqParameter in this._linqParameters)
                {
                    ObjectParameter          objectParameter     = linqParameter.Item1;
                    QueryParameterExpression parameterExpression = linqParameter.Item2;
                    if (parameterExpression != null)
                    {
                        objectParameter.Value = parameterExpression.EvaluateParameter((object[])null);
                    }
                }
            }
            return(queryExecutionPlan1);
        }
        internal override ObjectQueryExecutionPlan GetExecutionPlan(MergeOption?forMergeOption)
        {
            Debug.Assert(this.Span == null, "Include span specified on compiled LINQ-based ObjectQuery instead of within the expression tree?");
            Debug.Assert(this._cachedPlan == null, "Cached plan should not be set on compiled LINQ queries");

            // Metadata is required to generate the execution plan or to retrieve it from the cache.
            this.ObjectContext.EnsureMetadata();

            ObjectQueryExecutionPlan plan        = null;
            CompiledQueryCacheEntry  cacheEntry  = this._cacheEntry;
            bool useCSharpNullComparisonBehavior = this.ObjectContext.ContextOptions.UseCSharpNullComparisonBehavior;

            if (cacheEntry != null)
            {
                // The cache entry has already been retrieved, so compute the effective merge option with the following precedence:
                // 1. The merge option specified as the argument to Execute(MergeOption), and so to this method
                // 2. The merge option set using ObjectQuery.MergeOption
                // 3. The propagated merge option as recorded in the cache entry
                // 4. The global default merge option.
                MergeOption mergeOption = EnsureMergeOption(forMergeOption, this.UserSpecifiedMergeOption, cacheEntry.PropagatedMergeOption);

                // Ask for the corresponding execution plan
                plan = cacheEntry.GetExecutionPlan(mergeOption, useCSharpNullComparisonBehavior);
                if (plan == null)
                {
                    // Convert the LINQ expression to produce a command tree
                    ExpressionConverter converter       = this.CreateExpressionConverter();
                    DbExpression        queryExpression = converter.Convert();
                    ReadOnlyCollection <KeyValuePair <ObjectParameter, QueryParameterExpression> > parameters = converter.GetParameters();

                    // Prepare the execution plan using the command tree and the computed effective merge option
                    DbQueryCommandTree tree = DbQueryCommandTree.FromValidExpression(this.ObjectContext.MetadataWorkspace, DataSpace.CSpace, queryExpression);
                    plan = ObjectQueryExecutionPlan.Prepare(this.ObjectContext, tree, this.ElementType, mergeOption, converter.PropagatedSpan, parameters, converter.AliasGenerator);

                    // Update and retrieve the execution plan
                    plan = cacheEntry.SetExecutionPlan(plan, useCSharpNullComparisonBehavior);
                }
            }
            else
            {
                // This instance does not yet have a reference to a cache entry.
                // First, attempt to retrieve an existing cache entry.
                QueryCacheManager     cacheManager = this.ObjectContext.MetadataWorkspace.GetQueryCacheManager();
                CompiledQueryCacheKey cacheKey     = new CompiledQueryCacheKey(this._cacheToken);

                if (cacheManager.TryCacheLookup(cacheKey, out cacheEntry))
                {
                    // An entry was found in the cache, so compute the effective merge option based on its propagated merge option,
                    // and use the UseCSharpNullComparisonBehavior flag to retrieve the corresponding execution plan.
                    this._cacheEntry = cacheEntry;
                    MergeOption mergeOption = EnsureMergeOption(forMergeOption, this.UserSpecifiedMergeOption, cacheEntry.PropagatedMergeOption);
                    plan = cacheEntry.GetExecutionPlan(mergeOption, useCSharpNullComparisonBehavior);
                }

                // If no cache entry was found or if the cache entry did not contain the required execution plan, the plan is still null at this point.
                if (plan == null)
                {
                    // The execution plan needs to be produced, so create an appropriate expression converter and generate the query command tree.
                    ExpressionConverter converter       = this.CreateExpressionConverter();
                    DbExpression        queryExpression = converter.Convert();
                    ReadOnlyCollection <KeyValuePair <ObjectParameter, QueryParameterExpression> > parameters = converter.GetParameters();
                    DbQueryCommandTree tree = DbQueryCommandTree.FromValidExpression(this.ObjectContext.MetadataWorkspace, DataSpace.CSpace, queryExpression);

                    // If a cache entry for this compiled query's cache key was not successfully retrieved, then it must be created now.
                    // Note that this is only possible after converting the LINQ expression and discovering the propagated merge option,
                    // which is required in order to create the cache entry.
                    if (cacheEntry == null)
                    {
                        // Create the cache entry using this instance's cache token and the propagated merge option (which may be null)
                        cacheEntry = new CompiledQueryCacheEntry(cacheKey, converter.PropagatedMergeOption);

                        // Attempt to add the entry to the cache. If an entry was added in the meantime, use that entry instead.
                        QueryCacheEntry foundEntry;
                        if (cacheManager.TryLookupAndAdd(cacheEntry, out foundEntry))
                        {
                            cacheEntry = (CompiledQueryCacheEntry)foundEntry;
                        }

                        // We now have a cache entry, so hold onto it for future use.
                        this._cacheEntry = cacheEntry;
                    }

                    // Recompute the effective merge option in case a cache entry was just constructed above
                    MergeOption mergeOption = EnsureMergeOption(forMergeOption, this.UserSpecifiedMergeOption, cacheEntry.PropagatedMergeOption);

                    // Ask the (retrieved or constructed) cache entry for the corresponding execution plan.
                    plan = cacheEntry.GetExecutionPlan(mergeOption, useCSharpNullComparisonBehavior);
                    if (plan == null)
                    {
                        // The plan is not present, so prepare it now using the computed effective merge option
                        plan = ObjectQueryExecutionPlan.Prepare(this.ObjectContext, tree, this.ElementType, mergeOption, converter.PropagatedSpan, parameters, converter.AliasGenerator);

                        // Update the execution plan on the cache entry.
                        // If the execution plan was set in the meantime, SetExecutionPlan will return that value, otherwise it will return 'plan'.
                        plan = cacheEntry.SetExecutionPlan(plan, useCSharpNullComparisonBehavior);
                    }
                }
            }

            // Get parameters from the plan and set them.
            ObjectParameterCollection currentParams = this.EnsureParameters();

            if (plan.CompiledQueryParameters != null && plan.CompiledQueryParameters.Count > 0)
            {
                currentParams.SetReadOnly(false);
                currentParams.Clear();
                foreach (KeyValuePair <ObjectParameter, QueryParameterExpression> pair in plan.CompiledQueryParameters)
                {
                    // Parameters retrieved from the CompiledQueryParameters collection must be cloned before being added to the query.
                    // The cached plan is shared and when used in multithreaded scenarios failing to clone the parameter would result
                    // in the code below updating the values of shared parameter instances saved in the cached plan and used by all
                    // queries using that plan, regardless of the values they were actually invoked with, causing incorrect results
                    // when those queries were later executed.
                    //
                    ObjectParameter          convertedParam      = pair.Key.ShallowCopy();
                    QueryParameterExpression parameterExpression = pair.Value;
                    currentParams.Add(convertedParam);
                    if (parameterExpression != null)
                    {
                        convertedParam.Value = parameterExpression.EvaluateParameter(_parameterValues);
                    }
                }
            }
            currentParams.SetReadOnly(true);

            Debug.Assert(plan != null, "Failed to produce an execution plan?");
            return(plan);
        }
        internal override ObjectQueryExecutionPlan GetExecutionPlan(MergeOption?forMergeOption)
        {
            Debug.Assert(this.Span == null, "Include span specified on compiled LINQ-based ObjectQuery instead of within the expression tree?");

            // If this query has already been prepared, its current execution plan may no longer be valid.
            ObjectQueryExecutionPlan plan = this._cachedPlan;

            if (plan != null)
            {
                // Was a merge option specified in the call to Execute(MergeOption) or set via ObjectQuery.MergeOption?
                MergeOption?explicitMergeOption = GetMergeOption(forMergeOption, this.UserSpecifiedMergeOption);

                // If a merge option was explicitly specified, and it does not match the plan's merge option, then the plan is no longer valid.
                // If the context flag UseCSharpNullComparisonBehavior was modified, then the plan is no longer valid.
                if ((explicitMergeOption.HasValue &&
                     explicitMergeOption.Value != plan.MergeOption) ||
                    this._recompileRequired() ||
                    this.ObjectContext.ContextOptions.UseCSharpNullComparisonBehavior != this._useCSharpNullComparisonBehavior)
                {
                    plan = null;
                }
            }

            // The plan may have been invalidated above, or this query may never have been prepared.
            if (plan == null)
            {
                // Metadata is required to generate the execution plan.
                this.ObjectContext.EnsureMetadata();

                // Reset internal state
                this._recompileRequired = null;
                this.ResetParameters();

                // Translate LINQ expression to a DbExpression
                ExpressionConverter converter       = this.CreateExpressionConverter();
                DbExpression        queryExpression = converter.Convert();

                // This delegate tells us when a part of the expression tree has changed requiring a recompile.
                this._recompileRequired = converter.RecompileRequired;

                // Determine the merge option, with the following precedence:
                // 1. A merge option was specified explicitly as the argument to Execute(MergeOption).
                // 2. The user has set the MergeOption property on the ObjectQuery instance.
                // 3. A merge option has been extracted from the 'root' query and propagated to the root of the expression tree.
                // 4. The global default merge option.
                MergeOption mergeOption = EnsureMergeOption(forMergeOption,
                                                            this.UserSpecifiedMergeOption,
                                                            converter.PropagatedMergeOption);

                this._useCSharpNullComparisonBehavior = this.ObjectContext.ContextOptions.UseCSharpNullComparisonBehavior;

                // If parameters were aggregated from referenced (non-LINQ) ObjectQuery instances then add them to the parameters collection
                _linqParameters = converter.GetParameters();
                if (_linqParameters != null && _linqParameters.Count > 0)
                {
                    ObjectParameterCollection currentParams = this.EnsureParameters();
                    currentParams.SetReadOnly(false);
                    foreach (KeyValuePair <ObjectParameter, QueryParameterExpression> pair in _linqParameters)
                    {
                        // Note that it is safe to add the parameter directly only
                        // because parameters are cloned before they are added to the
                        // converter's parameter collection, or they came from this
                        // instance's parameter collection in the first place.
                        ObjectParameter convertedParam = pair.Key;
                        currentParams.Add(convertedParam);
                    }
                    currentParams.SetReadOnly(true);
                }

                // Try retrieving the execution plan from the global query cache (if plan caching is enabled).
                System.Data.Common.QueryCache.QueryCacheManager cacheManager = null;
                System.Data.Common.QueryCache.LinqQueryCacheKey cacheKey     = null;
                if (this.PlanCachingEnabled && !this._recompileRequired())
                {
                    // Create a new cache key that reflects the current state of the Parameters collection
                    // and the Span object (if any), and uses the specified merge option.
                    string expressionKey;
                    if (ExpressionKeyGen.TryGenerateKey(queryExpression, out expressionKey))
                    {
                        cacheKey = new System.Data.Common.QueryCache.LinqQueryCacheKey(
                            expressionKey,
                            (null == this.Parameters ? 0 : this.Parameters.Count),
                            (null == this.Parameters ? null : this.Parameters.GetCacheKey()),
                            (null == converter.PropagatedSpan ? null : converter.PropagatedSpan.GetCacheKey()),
                            mergeOption,
                            this._useCSharpNullComparisonBehavior,
                            this.ElementType);

                        cacheManager = this.ObjectContext.MetadataWorkspace.GetQueryCacheManager();
                        ObjectQueryExecutionPlan executionPlan = null;
                        if (cacheManager.TryCacheLookup(cacheKey, out executionPlan))
                        {
                            plan = executionPlan;
                        }
                    }
                }

                // If execution plan wasn't retrieved from the cache, build a new one and cache it.
                if (plan == null)
                {
                    DbQueryCommandTree tree = DbQueryCommandTree.FromValidExpression(this.ObjectContext.MetadataWorkspace, DataSpace.CSpace, queryExpression);
                    plan = ObjectQueryExecutionPlan.Prepare(this.ObjectContext, tree, this.ElementType, mergeOption, converter.PropagatedSpan, null, converter.AliasGenerator);

                    // If caching is enabled then update the cache now.
                    // Note: the logic is the same as in EntitySqlQueryState.
                    if (cacheKey != null)
                    {
                        var             newEntry   = new QueryCacheEntry(cacheKey, plan);
                        QueryCacheEntry foundEntry = null;
                        if (cacheManager.TryLookupAndAdd(newEntry, out foundEntry))
                        {
                            // If TryLookupAndAdd returns 'true' then the entry was already present in the cache when the attempt to add was made.
                            // In this case the existing execution plan should be used.
                            plan = (ObjectQueryExecutionPlan)foundEntry.GetTarget();
                        }
                    }
                }

                // Remember the current plan in the local cache, so that we don't have to recalc the key and look into the global cache
                // if the same instance of query gets executed more than once.
                this._cachedPlan = plan;
            }

            // Evaluate parameter values for the query.
            if (_linqParameters != null)
            {
                foreach (KeyValuePair <ObjectParameter, QueryParameterExpression> pair in _linqParameters)
                {
                    ObjectParameter          parameter           = pair.Key;
                    QueryParameterExpression parameterExpression = pair.Value;
                    if (null != parameterExpression)
                    {
                        parameter.Value = parameterExpression.EvaluateParameter(null);
                    }
                }
            }

            return(plan);
        }
Пример #4
0
        internal override ObjectQueryExecutionPlan GetExecutionPlan(
            MergeOption?forMergeOption)
        {
            ObjectQueryExecutionPlan queryExecutionPlan      = (ObjectQueryExecutionPlan)null;
            CompiledQueryCacheEntry  compiledQueryCacheEntry = this._cacheEntry;
            bool comparisonBehavior = this.ObjectContext.ContextOptions.UseCSharpNullComparisonBehavior;

            if (compiledQueryCacheEntry != null)
            {
                MergeOption mergeOption = ObjectQueryState.EnsureMergeOption(forMergeOption, this.UserSpecifiedMergeOption, compiledQueryCacheEntry.PropagatedMergeOption);
                queryExecutionPlan = compiledQueryCacheEntry.GetExecutionPlan(mergeOption, comparisonBehavior);
                if (queryExecutionPlan == null)
                {
                    ExpressionConverter expressionConverter = this.CreateExpressionConverter();
                    DbExpression        query = expressionConverter.Convert();
                    IEnumerable <Tuple <ObjectParameter, QueryParameterExpression> > parameters = expressionConverter.GetParameters();
                    ObjectQueryExecutionPlan newPlan = this._objectQueryExecutionPlanFactory.Prepare(this.ObjectContext, DbQueryCommandTree.FromValidExpression(this.ObjectContext.MetadataWorkspace, DataSpace.CSpace, query, !comparisonBehavior), this.ElementType, mergeOption, this.EffectiveStreamingBehavior, expressionConverter.PropagatedSpan, parameters, expressionConverter.AliasGenerator);
                    queryExecutionPlan = compiledQueryCacheEntry.SetExecutionPlan(newPlan, comparisonBehavior);
                }
            }
            else
            {
                QueryCacheManager     queryCacheManager = this.ObjectContext.MetadataWorkspace.GetQueryCacheManager();
                CompiledQueryCacheKey key = new CompiledQueryCacheKey(this._cacheToken);
                if (queryCacheManager.TryCacheLookup <CompiledQueryCacheKey, CompiledQueryCacheEntry>(key, out compiledQueryCacheEntry))
                {
                    this._cacheEntry = compiledQueryCacheEntry;
                    MergeOption mergeOption = ObjectQueryState.EnsureMergeOption(forMergeOption, this.UserSpecifiedMergeOption, compiledQueryCacheEntry.PropagatedMergeOption);
                    queryExecutionPlan = compiledQueryCacheEntry.GetExecutionPlan(mergeOption, comparisonBehavior);
                }
                if (queryExecutionPlan == null)
                {
                    ExpressionConverter expressionConverter = this.CreateExpressionConverter();
                    DbExpression        query = expressionConverter.Convert();
                    IEnumerable <Tuple <ObjectParameter, QueryParameterExpression> > parameters = expressionConverter.GetParameters();
                    DbQueryCommandTree tree = DbQueryCommandTree.FromValidExpression(this.ObjectContext.MetadataWorkspace, DataSpace.CSpace, query, !comparisonBehavior);
                    if (compiledQueryCacheEntry == null)
                    {
                        compiledQueryCacheEntry = new CompiledQueryCacheEntry((QueryCacheKey)key, expressionConverter.PropagatedMergeOption);
                        QueryCacheEntry outQueryCacheEntry;
                        if (queryCacheManager.TryLookupAndAdd((QueryCacheEntry)compiledQueryCacheEntry, out outQueryCacheEntry))
                        {
                            compiledQueryCacheEntry = (CompiledQueryCacheEntry)outQueryCacheEntry;
                        }
                        this._cacheEntry = compiledQueryCacheEntry;
                    }
                    MergeOption mergeOption = ObjectQueryState.EnsureMergeOption(forMergeOption, this.UserSpecifiedMergeOption, compiledQueryCacheEntry.PropagatedMergeOption);
                    queryExecutionPlan = compiledQueryCacheEntry.GetExecutionPlan(mergeOption, comparisonBehavior);
                    if (queryExecutionPlan == null)
                    {
                        ObjectQueryExecutionPlan newPlan = this._objectQueryExecutionPlanFactory.Prepare(this.ObjectContext, tree, this.ElementType, mergeOption, this.EffectiveStreamingBehavior, expressionConverter.PropagatedSpan, parameters, expressionConverter.AliasGenerator);
                        queryExecutionPlan = compiledQueryCacheEntry.SetExecutionPlan(newPlan, comparisonBehavior);
                    }
                }
            }
            ObjectParameterCollection parameterCollection = this.EnsureParameters();

            if (queryExecutionPlan.CompiledQueryParameters != null && queryExecutionPlan.CompiledQueryParameters.Any <Tuple <ObjectParameter, QueryParameterExpression> >())
            {
                parameterCollection.SetReadOnly(false);
                parameterCollection.Clear();
                foreach (Tuple <ObjectParameter, QueryParameterExpression> compiledQueryParameter in queryExecutionPlan.CompiledQueryParameters)
                {
                    ObjectParameter          objectParameter     = compiledQueryParameter.Item1.ShallowCopy();
                    QueryParameterExpression parameterExpression = compiledQueryParameter.Item2;
                    parameterCollection.Add(objectParameter);
                    if (parameterExpression != null)
                    {
                        objectParameter.Value = parameterExpression.EvaluateParameter(this._parameterValues);
                    }
                }
            }
            parameterCollection.SetReadOnly(true);
            return(queryExecutionPlan);
        }