// create DryadLinqMetaData from a query OutputNode
        internal static DryadLinqMetaData Get(DryadLinqContext context, DLinqOutputNode node)
        {
            DryadLinqMetaData metaData = new DryadLinqMetaData();

            if (!DataPath.IsValidDataPath(node.OutputUri))
            {
                throw new InvalidOperationException();
            }

            metaData.m_context = context;
            metaData.m_dataSetUri = node.OutputUri;
            metaData.m_elemType = node.OutputTypes[0];
            metaData.m_compressionScheme = node.OutputCompressionScheme;
            //metaData.m_version = context.ClientVersion();
            //metaData.InitializeFlags();
            
            //metaData.m_fp = 0UL;
            //metaData.m_dataSetInfo = node.OutputDataSetInfo;

            return metaData;
        }
Example #2
0
 internal virtual string Visit(DLinqOutputNode node,
                               CodeMemberMethod vertexMethod,
                               string[] readerNames,
                               string[] writerNames)
 {
     return node.AddVertexCode(vertexMethod, readerNames, writerNames);
 }
        // Phase 1 of the query optimization
        internal void GenerateQueryPlanPhase1()
        {
            if (this.m_queryPlan1 != null) return;

            // Apply some simple rewrite rules
            SimpleRewriter rewriter = new SimpleRewriter(this.m_exprNodeInfoMap.Values.ToList());
            rewriter.Rewrite();
            
            // Generate the query plan of phase1
            var referencedNodes = this.m_referencedQueryMap.Values;
            this.m_queryPlan1 = new DLinqQueryNode[this.m_queryExprs.Length + referencedNodes.Count];
            for (int i = 0; i < this.m_queryExprs.Length; i++)
            {
                this.m_queryPlan1[i] = this.Visit(this.m_queryNodeInfos[i].Children[0].Child);
            }
            int idx = this.m_queryExprs.Length;
            foreach (DummyQueryNodeInfo nodeInfo in referencedNodes)
            {
                if (nodeInfo.NeedsMerge)
                {
                    // Add a Tee'd Merge
                    this.m_queryPlan1[idx] = this.Visit(nodeInfo.Children[0].Child);
                    DLinqQueryNode mergeNode = new DLinqMergeNode(true,
                                                                  nodeInfo.QueryExpression,
                                                                  this.m_queryPlan1[idx]);
                    this.m_queryPlan1[idx] = new DLinqTeeNode(mergeNode.OutputTypes[0], true,
                                                              mergeNode.QueryExpression, mergeNode);
                }
                else
                {
                    this.m_queryPlan1[idx] = this.Visit(nodeInfo.Children[0].Child);
                }
                nodeInfo.QueryNode = this.m_queryPlan1[idx];
                idx++;
            }

            // Finally, add the output nodes.
            Dictionary<DLinqQueryNode, int> forkCounts = new Dictionary<DLinqQueryNode, int>();
            for (int i = 0; i < this.m_queryExprs.Length; i++)
            {
                DLinqQueryNode queryNode = this.m_queryPlan1[i];
                int cnt;
                if (!forkCounts.TryGetValue(queryNode, out cnt))
                {
                    cnt = queryNode.Parents.Count;
                }
                forkCounts[queryNode] = cnt + 1;
            }

            for (int i = 0; i < this.m_queryExprs.Length; i++)
            {
                DryadLinqClientLog.Add("Query " + i + " Output: " + this.m_outputTableUris[i]);

                DLinqQueryNode queryNode = this.m_queryPlan1[i];
                if (TypeSystem.IsAnonymousType(queryNode.OutputTypes[0]))
                {
                    throw new DryadLinqException(DryadLinqErrorCode.OutputTypeCannotBeAnonymous,
                                                 SR.OutputTypeCannotBeAnonymous);
                }

                if (this.m_serializers[i] != null)
                {
                    // Add an Apply for the serializer if it is not null
                    LambdaExpression serializer = DryadLinqExpression.GetLambda(this.m_serializers[i]);
                    DLinqQueryNode applyNode = new DLinqApplyNode(serializer, this.m_queryExprs[i], queryNode);
                    applyNode.OutputDataSetInfo = queryNode.OutputDataSetInfo;
                    queryNode = applyNode;
                }
                else
                {
                    // Add dummy Apply to make Dryad happy (it doesn't like to hook inputs straight to outputs)
                    if ((queryNode is DLinqInputNode) || (forkCounts[queryNode] > 1))
                    {
                        // Add a dummy Apply
                        Type paramType = typeof(IEnumerable<>).MakeGenericType(queryNode.OutputTypes[0]);
                        ParameterExpression param = Expression.Parameter(paramType, "x");
                        Type type = typeof(Func<,>).MakeGenericType(paramType, paramType);
                        LambdaExpression applyExpr = Expression.Lambda(type, param, param);
                        DLinqQueryNode applyNode = new DLinqApplyNode(applyExpr, this.m_queryExprs[i], queryNode);
                        applyNode.OutputDataSetInfo = queryNode.OutputDataSetInfo;
                        queryNode = applyNode;
                    }

                    if (queryNode is DLinqConcatNode)
                    {
                        // Again, we add dummy Apply in certain cases to make Dryad happy
                        ((DLinqConcatNode)queryNode).FixInputs();
                    }
                }

                // Add the output node                
                CompressionScheme outputScheme = this.m_context.OutputDataCompressionScheme;
                DLinqOutputNode outputNode = new DLinqOutputNode(this.m_context,
                                                                 this.m_outputTableUris[i],
                                                                 this.m_isTempOutput[i],
                                                                 outputScheme,
                                                                 this.m_queryExprs[i],
                                                                 queryNode);

                this.m_queryPlan1[i] = outputNode;

                string outputUri = this.m_outputTableUris[i].AbsoluteUri.ToLower();
                if (this.m_outputUriMap.ContainsKey(outputUri))
                {
                    throw new DryadLinqException(DryadLinqErrorCode.MultipleOutputsWithSameDscUri,
                                                 String.Format(SR.MultipleOutputsWithSameUri, this.m_outputTableUris[i]));
                }

                this.m_outputUriMap.Add(outputUri, outputNode);
                this.m_outputTypes[i] = this.m_queryPlan1[i].OutputTypes[0];
                    
                // Remove useless Tees to make Dryad happy                
                if ((queryNode is DLinqTeeNode) && (forkCounts[queryNode] == 1))
                {
                    DLinqQueryNode teeChild = queryNode.Children[0];
                    teeChild.UpdateParent(queryNode, outputNode);
                    outputNode.UpdateChildren(queryNode, teeChild);
                }
            }
        }