Exemplo n.º 1
0
 internal virtual string Visit(DLinqPartitionOpNode node,
                               CodeMemberMethod vertexMethod,
                               string[] readerNames,
                               string[] writerNames)
 {
     return node.AddVertexCode(vertexMethod, readerNames, writerNames);
 }
Exemplo n.º 2
0
        private DLinqQueryNode VisitPartitionOp(string opName,
                                                QueryNodeInfo source,
                                                QueryNodeType nodeType,
                                                Expression controlExpr,
                                                MethodCallExpression queryExpr)
        {
            DLinqQueryNode resNode;
            if (nodeType == QueryNodeType.TakeWhile &&
                controlExpr.Type.GetGenericArguments().Length != 2)
            {
                // The "indexed" version.
                resNode = this.Visit(source);

                // The following block used to be skipped for resNode.OutputPartition.Count == 1,
                // which causes compilation error (bug 13593)
                // @@TODO[p3] : implement a working optimization for nPartition==1 that calls
                //              directly to Linq TakeWhile.
                // Note: the test is: if (resNode.IsDynamic || resNode.OutputPartition.Count > 1)
                {
                    resNode.IsForked = true;

                    bool isLong = (queryExpr.Method.Name == "LongTakeWhile");
                    DLinqQueryNode offsetNode = this.CreateOffset(isLong, queryExpr, resNode);

                    // Create (x, y) => GroupIndexedTakeWhile(x, y, controlExpr)
                    Type ptype1 = typeof(IEnumerable<>).MakeGenericType(resNode.OutputTypes[0]);
                    Type ptype2 = typeof(IEnumerable<>).MakeGenericType(typeof(IndexedValue<long>));
                    ParameterExpression param1 = Expression.Parameter(ptype1, DryadLinqCodeGen.MakeUniqueName("x"));
                    ParameterExpression param2 = Expression.Parameter(ptype2, DryadLinqCodeGen.MakeUniqueName("y"));
                    string methodName = "GroupIndexed" + queryExpr.Method.Name;
                    MethodInfo minfo = typeof(DryadLinqEnumerable).GetMethod(methodName);
                    minfo = minfo.MakeGenericMethod(resNode.OutputTypes[0]);
                    Expression body = Expression.Call(minfo, param1, param2, controlExpr);
                    Type type = typeof(Func<,,>).MakeGenericType(ptype1, ptype2, body.Type);
                    LambdaExpression procFunc = Expression.Lambda(type, body, param1, param2);
                    resNode = new DLinqApplyNode(procFunc, queryExpr, resNode, offsetNode);
                }
            }
            else if (!source.IsForked &&
                     (nodeType == QueryNodeType.Take || nodeType == QueryNodeType.TakeWhile) &&
                     (source.OperatorName == "OrderBy" || source.OperatorName == "OrderByDescending"))
            {
                resNode = this.Visit(source.Children[0].Child);
                
                bool isDescending = (source.OperatorName == "OrderByDescending");
                MethodCallExpression sourceQueryExpr = (MethodCallExpression)source.QueryExpression;
                LambdaExpression keySelectExpr = DryadLinqExpression.GetLambda(sourceQueryExpr.Arguments[1]);
                Expression comparerExpr = null;
                if (sourceQueryExpr.Arguments.Count == 3)
                {
                    comparerExpr = sourceQueryExpr.Arguments[2];
                }
                resNode = this.PromoteConcat(
                                  source.Children[0].Child,
                                  resNode,
                                  delegate(DLinqQueryNode x) {
                                      DLinqQueryNode y = new DLinqOrderByNode(keySelectExpr, comparerExpr,
                                                                              isDescending, sourceQueryExpr, x);
                                      return FirstStagePartitionOp(opName, nodeType, controlExpr, queryExpr, y);
                                  });
                if (resNode.IsDynamic || resNode.OutputPartition.Count > 1)
                {
                    // Need a mergesort
                    resNode = new DLinqMergeNode(keySelectExpr, comparerExpr, isDescending, sourceQueryExpr, resNode);
                }
            }
            else
            {
                resNode = this.Visit(source);
                if (nodeType == QueryNodeType.Take || nodeType == QueryNodeType.TakeWhile)
                {
                    resNode = this.PromoteConcat(
                                      source, resNode,
                                      x => FirstStagePartitionOp(opName, nodeType, controlExpr, queryExpr, x));
                }
            }
            resNode = new DLinqPartitionOpNode(opName, nodeType, controlExpr, false, queryExpr, resNode);
            return resNode;
        }