public Void visitLocalRef(RexLocalRef inputRef) { super.visitLocalRef(inputRef); if (inputRef.getIndex() >= limit) { throw new IllegalForwardRefException(); } return null; }
public void onMatch(RelOptRuleCall call) { CalcRel calc = (CalcRel) call.getRels()[0]; RexProgram program = calc.getProgram(); final List<RexNode> exprList = program.getExprList(); // Form a list of expressions with sub-expressions fully // expanded. final List<RexNode> expandedExprList = new ArrayList<RexNode>(exprList.size()); final RexShuttle shuttle = new RexShuttle() { public RexNode visitLocalRef(RexLocalRef localRef) { return expandedExprList.get(localRef.getIndex()); } }; for (RexNode expr : exprList) { expandedExprList.add(expr.accept(shuttle)); } if (reduceExpressions(calc, expandedExprList)) { final RexProgramBuilder builder = new RexProgramBuilder( calc.getChild().getRowType(), calc.getCluster().getRexBuilder()); List<RexLocalRef> list = new ArrayList<RexLocalRef>(); for (RexNode expr : expandedExprList) { list.add(builder.registerInput(expr)); } if (program.getCondition() != null) { final int conditionIndex = program.getCondition().getIndex(); final RexNode newConditionExp = expandedExprList.get(conditionIndex); if (newConditionExp.isAlwaysTrue()) { // condition is always TRUE - drop it } else if ((newConditionExp instanceof RexLiteral) || RexUtil.isNullLiteral(newConditionExp, true)) { // condition is always NULL or FALSE - replace calc // with empty call.transformTo(new EmptyRel(calc.getCluster(), calc.getRowType())); return; } else { builder.addCondition(list.get(conditionIndex)); } } int k = 0; for (RexLocalRef projectExpr : program.getProjectList()) { final int index = projectExpr.getIndex(); builder.addProject( list.get(index).getIndex(), program.getOutputRowType().getFieldList().get(k++).getName()); } call.transformTo( new CalcRel( calc.getCluster(), calc.getTraits(), calc.getChild(), calc.getRowType(), builder.getProgram(), calc.getCollationList())); // New plan is absolutely better than old plan. call.getPlanner().setImportance(calc, 0.0); } }
/** * Converts an array of {@link RexNode} to an array of {@link Integer}. Every node must be a * {@link RexLocalRef}. */ public static Integer[] toOrdinalArray(RexNode[] rexNodes) { Integer[] orderKeys = new Integer[rexNodes.length]; for (int i = 0; i < orderKeys.length; i++) { RexLocalRef inputRef = (RexLocalRef) rexNodes[i]; orderKeys[i] = inputRef.getIndex(); } return orderKeys; }