Beispiel #1
0
 @Override
 public Boolean visitCall(RexCall call) {
   // Constant if operator is deterministic and all operands are
   // constant.
   return call.getOperator().isDeterministic()
       && RexVisitorImpl.visitArrayAnd(this, call.getOperands());
 }
Beispiel #2
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 private String compile(ExprCompiler compiler, RexCall call) {
   SqlOperator op = call.getOperator();
   CallExprPrinter printer = getCallExprPrinter(op);
   if (printer == null) {
     throw new UnsupportedOperationException();
   } else {
     return printer.translate(compiler, call);
   }
 }
Beispiel #3
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 private boolean isAlwaysTrue(RexNode predicate) {
   if (predicate instanceof RexCall) {
     RexCall c = (RexCall) predicate;
     if (c.getOperator().getKind() == SqlKind.EQUALS) {
       int lPos = pos(c.getOperands().get(0));
       int rPos = pos(c.getOperands().get(1));
       return lPos != -1 && lPos == rPos;
     }
   }
   return predicate.isAlwaysTrue();
 }
Beispiel #4
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 @Override
 public Void visitCall(RexCall call) {
   if (call.getOperator().getKind() == SqlKind.EQUALS) {
     int lPos = pos(call.getOperands().get(0));
     int rPos = pos(call.getOperands().get(1));
     if (lPos != -1 && rPos != -1) {
       JoinConditionBasedPredicateInference.this.equivalent(lPos, rPos);
       JoinConditionBasedPredicateInference.this.equalityPredicates.add(call.toString());
     }
   }
   return null;
 }
  /** Find the list of expressions where Complex type function is at top level. */
  private List<RexNode> findTopComplexFunc(List<RexNode> exprs) {
    final List<RexNode> topComplexFuncs = new ArrayList<>();

    for (RexNode exp : exprs) {
      if (exp instanceof RexCall) {
        RexCall call = (RexCall) exp;
        String functionName = call.getOperator().getName();

        if (funcReg.isFunctionComplexOutput(functionName)) {
          topComplexFuncs.add(exp);
        }
      }
    }

    return topComplexFuncs;
  }
Beispiel #6
0
  private static void splitJoinCondition(
      List<RelDataTypeField> sysFieldList,
      List<RelNode> inputs,
      RexNode condition,
      List<List<RexNode>> joinKeys,
      List<Integer> filterNulls,
      List<SqlOperator> rangeOp,
      List<RexNode> nonEquiList)
      throws CalciteSemanticException {
    final int sysFieldCount = sysFieldList.size();
    final RelOptCluster cluster = inputs.get(0).getCluster();
    final RexBuilder rexBuilder = cluster.getRexBuilder();

    if (condition instanceof RexCall) {
      RexCall call = (RexCall) condition;
      if (call.getOperator() == SqlStdOperatorTable.AND) {
        for (RexNode operand : call.getOperands()) {
          splitJoinCondition(
              sysFieldList, inputs, operand, joinKeys, filterNulls, rangeOp, nonEquiList);
        }
        return;
      }

      RexNode leftKey = null;
      RexNode rightKey = null;
      int leftInput = 0;
      int rightInput = 0;
      List<RelDataTypeField> leftFields = null;
      List<RelDataTypeField> rightFields = null;
      boolean reverse = false;

      SqlKind kind = call.getKind();

      // Only consider range operators if we haven't already seen one
      if ((kind == SqlKind.EQUALS)
          || (filterNulls != null && kind == SqlKind.IS_NOT_DISTINCT_FROM)
          || (rangeOp != null
              && rangeOp.isEmpty()
              && (kind == SqlKind.GREATER_THAN
                  || kind == SqlKind.GREATER_THAN_OR_EQUAL
                  || kind == SqlKind.LESS_THAN
                  || kind == SqlKind.LESS_THAN_OR_EQUAL))) {
        final List<RexNode> operands = call.getOperands();
        RexNode op0 = operands.get(0);
        RexNode op1 = operands.get(1);

        final ImmutableBitSet projRefs0 = InputFinder.bits(op0);
        final ImmutableBitSet projRefs1 = InputFinder.bits(op1);

        final ImmutableBitSet[] inputsRange = new ImmutableBitSet[inputs.size()];
        int totalFieldCount = 0;
        for (int i = 0; i < inputs.size(); i++) {
          final int firstField = totalFieldCount + sysFieldCount;
          totalFieldCount = firstField + inputs.get(i).getRowType().getFieldCount();
          inputsRange[i] = ImmutableBitSet.range(firstField, totalFieldCount);
        }

        boolean foundBothInputs = false;
        for (int i = 0; i < inputs.size() && !foundBothInputs; i++) {
          if (projRefs0.intersects(inputsRange[i])
              && projRefs0.union(inputsRange[i]).equals(inputsRange[i])) {
            if (leftKey == null) {
              leftKey = op0;
              leftInput = i;
              leftFields = inputs.get(leftInput).getRowType().getFieldList();
            } else {
              rightKey = op0;
              rightInput = i;
              rightFields = inputs.get(rightInput).getRowType().getFieldList();
              reverse = true;
              foundBothInputs = true;
            }
          } else if (projRefs1.intersects(inputsRange[i])
              && projRefs1.union(inputsRange[i]).equals(inputsRange[i])) {
            if (leftKey == null) {
              leftKey = op1;
              leftInput = i;
              leftFields = inputs.get(leftInput).getRowType().getFieldList();
            } else {
              rightKey = op1;
              rightInput = i;
              rightFields = inputs.get(rightInput).getRowType().getFieldList();
              foundBothInputs = true;
            }
          }
        }

        if ((leftKey != null) && (rightKey != null)) {
          // adjustment array
          int[] adjustments = new int[totalFieldCount];
          for (int i = 0; i < inputs.size(); i++) {
            final int adjustment = inputsRange[i].nextSetBit(0);
            for (int j = adjustment; j < inputsRange[i].length(); j++) {
              adjustments[j] = -adjustment;
            }
          }

          // replace right Key input ref
          rightKey =
              rightKey.accept(
                  new RelOptUtil.RexInputConverter(
                      rexBuilder, rightFields, rightFields, adjustments));

          // left key only needs to be adjusted if there are system
          // fields, but do it for uniformity
          leftKey =
              leftKey.accept(
                  new RelOptUtil.RexInputConverter(
                      rexBuilder, leftFields, leftFields, adjustments));

          RelDataType leftKeyType = leftKey.getType();
          RelDataType rightKeyType = rightKey.getType();

          if (leftKeyType != rightKeyType) {
            // perform casting using Hive rules
            TypeInfo rType = TypeConverter.convert(rightKeyType);
            TypeInfo lType = TypeConverter.convert(leftKeyType);
            TypeInfo tgtType = FunctionRegistry.getCommonClassForComparison(lType, rType);

            if (tgtType == null) {
              throw new CalciteSemanticException(
                  "Cannot find common type for join keys "
                      + leftKey
                      + " (type "
                      + leftKeyType
                      + ") and "
                      + rightKey
                      + " (type "
                      + rightKeyType
                      + ")");
            }
            RelDataType targetKeyType = TypeConverter.convert(tgtType, rexBuilder.getTypeFactory());

            if (leftKeyType != targetKeyType
                && TypeInfoUtils.isConversionRequiredForComparison(tgtType, lType)) {
              leftKey = rexBuilder.makeCast(targetKeyType, leftKey);
            }

            if (rightKeyType != targetKeyType
                && TypeInfoUtils.isConversionRequiredForComparison(tgtType, rType)) {
              rightKey = rexBuilder.makeCast(targetKeyType, rightKey);
            }
          }
        }
      }

      if ((leftKey != null) && (rightKey != null)) {
        // found suitable join keys
        // add them to key list, ensuring that if there is a
        // non-equi join predicate, it appears at the end of the
        // key list; also mark the null filtering property
        addJoinKey(joinKeys.get(leftInput), leftKey, (rangeOp != null) && !rangeOp.isEmpty());
        addJoinKey(joinKeys.get(rightInput), rightKey, (rangeOp != null) && !rangeOp.isEmpty());
        if (filterNulls != null && kind == SqlKind.EQUALS) {
          // nulls are considered not matching for equality comparison
          // add the position of the most recently inserted key
          filterNulls.add(joinKeys.get(leftInput).size() - 1);
        }
        if (rangeOp != null && kind != SqlKind.EQUALS && kind != SqlKind.IS_DISTINCT_FROM) {
          if (reverse) {
            kind = reverse(kind);
          }
          rangeOp.add(op(kind, call.getOperator()));
        }
        return;
      } // else fall through and add this condition as nonEqui condition
    }

    // The operator is not of RexCall type
    // So we fail. Fall through.
    // Add this condition to the list of non-equi-join conditions.
    nonEquiList.add(condition);
  }
Beispiel #7
0
  private RexNode convert(final ExprNodeGenericFuncDesc func) throws SemanticException {
    ExprNodeDesc tmpExprNode;
    RexNode tmpRN;

    List<RexNode> childRexNodeLst = new LinkedList<RexNode>();
    Builder<RelDataType> argTypeBldr = ImmutableList.<RelDataType>builder();

    // TODO: 1) Expand to other functions as needed 2) What about types other than primitive.
    TypeInfo tgtDT = null;
    GenericUDF tgtUdf = func.getGenericUDF();

    boolean isNumeric =
        (tgtUdf instanceof GenericUDFBaseBinary
            && func.getTypeInfo().getCategory() == Category.PRIMITIVE
            && (PrimitiveGrouping.NUMERIC_GROUP
                == PrimitiveObjectInspectorUtils.getPrimitiveGrouping(
                    ((PrimitiveTypeInfo) func.getTypeInfo()).getPrimitiveCategory())));
    boolean isCompare = !isNumeric && tgtUdf instanceof GenericUDFBaseCompare;

    if (isNumeric) {
      tgtDT = func.getTypeInfo();

      assert func.getChildren().size() == 2;
      // TODO: checking 2 children is useless, compare already does that.
    } else if (isCompare && (func.getChildren().size() == 2)) {
      tgtDT =
          FunctionRegistry.getCommonClassForComparison(
              func.getChildren().get(0).getTypeInfo(), func.getChildren().get(1).getTypeInfo());
    }

    for (ExprNodeDesc childExpr : func.getChildren()) {
      tmpExprNode = childExpr;
      if (tgtDT != null
          && TypeInfoUtils.isConversionRequiredForComparison(tgtDT, childExpr.getTypeInfo())) {
        if (isCompare) {
          // For compare, we will convert requisite children
          tmpExprNode = ParseUtils.createConversionCast(childExpr, (PrimitiveTypeInfo) tgtDT);
        } else if (isNumeric) {
          // For numeric, we'll do minimum necessary cast - if we cast to the type
          // of expression, bad things will happen.
          PrimitiveTypeInfo minArgType = ExprNodeDescUtils.deriveMinArgumentCast(childExpr, tgtDT);
          tmpExprNode = ParseUtils.createConversionCast(childExpr, minArgType);
        } else {
          throw new AssertionError("Unexpected " + tgtDT + " - not a numeric op or compare");
        }
      }
      argTypeBldr.add(TypeConverter.convert(tmpExprNode.getTypeInfo(), cluster.getTypeFactory()));
      tmpRN = convert(tmpExprNode);
      childRexNodeLst.add(tmpRN);
    }

    // See if this is an explicit cast.
    RexNode expr = null;
    RelDataType retType = null;
    expr = handleExplicitCast(func, childRexNodeLst);

    if (expr == null) {
      // This is not a cast; process the function.
      retType = TypeConverter.convert(func.getTypeInfo(), cluster.getTypeFactory());
      SqlOperator calciteOp =
          SqlFunctionConverter.getCalciteOperator(
              func.getFuncText(), func.getGenericUDF(), argTypeBldr.build(), retType);
      expr = cluster.getRexBuilder().makeCall(calciteOp, childRexNodeLst);
    } else {
      retType = expr.getType();
    }

    // TODO: Cast Function in Calcite have a bug where it infer type on cast throws
    // an exception
    if (flattenExpr
        && (expr instanceof RexCall)
        && !(((RexCall) expr).getOperator() instanceof SqlCastFunction)) {
      RexCall call = (RexCall) expr;
      expr =
          cluster
              .getRexBuilder()
              .makeCall(
                  retType,
                  call.getOperator(),
                  RexUtil.flatten(call.getOperands(), call.getOperator()));
    }

    return expr;
  }