コード例 #1
0
ファイル: NestedLoopsJoinRule.java プロジェクト: Jach/luciddb
  public void onMatch(RelOptRuleCall call) {
    assert matches(call);
    final JoinRel join = (JoinRel) call.rels[0];
    final List<Integer> leftKeys = new ArrayList<Integer>();
    final List<Integer> rightKeys = new ArrayList<Integer>();
    RelNode right = join.getRight();
    final RelNode left = join.getLeft();
    RexNode remainingCondition =
        RelOptUtil.splitJoinCondition(left, right, join.getCondition(), leftKeys, rightKeys);
    assert leftKeys.size() == rightKeys.size();
    final List<CorrelatorRel.Correlation> correlationList =
        new ArrayList<CorrelatorRel.Correlation>();
    if (leftKeys.size() > 0) {
      final RelOptCluster cluster = join.getCluster();
      final RexBuilder rexBuilder = cluster.getRexBuilder();
      int k = 0;
      RexNode condition = null;
      for (Integer leftKey : leftKeys) {
        Integer rightKey = rightKeys.get(k++);
        final String dyn_inIdStr = cluster.getQuery().createCorrel();
        final int dyn_inId = RelOptQuery.getCorrelOrdinal(dyn_inIdStr);

        // Create correlation to say 'each row, set variable #id
        // to the value of column #leftKey'.
        correlationList.add(new CorrelatorRel.Correlation(dyn_inId, leftKey));
        condition =
            RelOptUtil.andJoinFilters(
                rexBuilder,
                condition,
                rexBuilder.makeCall(
                    SqlStdOperatorTable.equalsOperator,
                    rexBuilder.makeInputRef(
                        right.getRowType().getFieldList().get(rightKey).getType(), rightKey),
                    rexBuilder.makeCorrel(
                        left.getRowType().getFieldList().get(leftKey).getType(), dyn_inIdStr)));
      }
      right = CalcRel.createFilter(right, condition);
    }
    RelNode newRel =
        new CorrelatorRel(
            join.getCluster(),
            left,
            right,
            remainingCondition,
            correlationList,
            join.getJoinType());
    call.transformTo(newRel);
  }
コード例 #2
0
ファイル: SargRexAnalyzer.java プロジェクト: norrislee/optiq
  /**
   * Analyzes a rex predicate.
   *
   * @param rexPredicate predicate to be analyzed
   * @return a list of SargBindings contained in the input rex predicate
   */
  public List<SargBinding> analyzeAll(RexNode rexPredicate) {
    sargBindingList = new ArrayList<SargBinding>();
    sarg2RexMap = new HashMap<SargExpr, RexNode>();
    nonSargFilterList = new ArrayList<RexNode>();

    // Flatten out the RexNode tree into a list of terms that
    // are AND'ed together
    final List<RexNode> rexCFList = RelOptUtil.conjunctions(rexPredicate);

    // In simple mode, each input ref can only be referenced once, so
    // keep a list of them.  We also only allow one non-point expression.
    List<Integer> boundRefList = new ArrayList<Integer>();
    boolean rangeFound = false;

    for (RexNode rexPred : rexCFList) {
      final SargBinding sargBinding = analyze(rexPred);
      if (sargBinding != null) {
        if (simpleMode) {
          RexInputRef inputRef = sargBinding.getInputRef();
          if (boundRefList.contains(inputRef.getIndex())) {
            nonSargFilterList.add(rexPred);
            continue;
          } else {
            boundRefList.add(inputRef.getIndex());
          }
          SargIntervalSequence sargSeq = sargBinding.getExpr().evaluate();
          if (sargSeq.isRange()) {
            if (rangeFound) {
              nonSargFilterList.add(rexPred);
              continue;
            } else {
              rangeFound = true;
            }
          }
        }
        sargBindingList.add(sargBinding);
        sarg2RexMap.put(sargBinding.getExpr(), rexPred);
      } else {
        nonSargFilterList.add(rexPred);
      }
    }

    // Reset the state variables used during analyze, just for sanity sake.
    failed = false;
    boundInputRef = null;
    clearLeaf();

    // Combine the AND terms back together.
    recomposeConjunction();

    return sargBindingList;
  }
コード例 #3
0
ファイル: RexUtil.java プロジェクト: kunlqt/optiq
 /**
  * Returns whether the type of an array of expressions is compatible with a struct type.
  *
  * @param exprs Array of expressions
  * @param type Type
  * @param fail Whether to fail if there is a mismatch
  * @return Whether every expression has the same type as the corresponding member of the struct
  *     type
  * @see RelOptUtil#eq(String, RelDataType, String, RelDataType, boolean)
  */
 public static boolean compatibleTypes(RexNode[] exprs, RelDataType type, boolean fail) {
   final RelDataTypeField[] fields = type.getFields();
   if (exprs.length != fields.length) {
     assert !fail : "rowtype mismatches expressions";
     return false;
   }
   for (int i = 0; i < fields.length; i++) {
     final RelDataType exprType = exprs[i].getType();
     final RelDataType fieldType = fields[i].getType();
     if (!RelOptUtil.eq("type1", exprType, "type2", fieldType, fail)) {
       return false;
     }
   }
   return true;
 }
コード例 #4
0
ファイル: SqlToRelTestBase.java プロジェクト: NGDATA/optiq
    public void assertConvertsTo(String sql, String plan, boolean trim) {
      String sql2 = getDiffRepos().expand("sql", sql);
      RelNode rel = convertSqlToRel(sql2);

      assertTrue(rel != null);
      assertValid(rel);

      if (trim) {
        final RelFieldTrimmer trimmer = createFieldTrimmer();
        rel = trimmer.trim(rel);
        assertTrue(rel != null);
        assertValid(rel);
      }

      // NOTE jvs 28-Mar-2006:  insert leading newline so
      // that plans come out nicely stacked instead of first
      // line immediately after CDATA start
      String actual = NL + RelOptUtil.toString(rel);
      diffRepos.assertEquals("plan", plan, actual);
    }
コード例 #5
0
ファイル: RexUtil.java プロジェクト: kunlqt/optiq
 /**
  * Returns whether the leading edge of a given array of expressions is wholly {@link RexInputRef}
  * objects with types corresponding to the underlying datatype.
  */
 public static boolean containIdentity(RexNode[] exprs, RelDataType rowType, boolean fail) {
   final RelDataTypeField[] fields = rowType.getFields();
   if (exprs.length < fields.length) {
     assert !fail : "exprs/rowType length mismatch";
     return false;
   }
   for (int i = 0; i < fields.length; i++) {
     if (!(exprs[i] instanceof RexInputRef)) {
       assert !fail : "expr[" + i + "] is not a RexInputRef";
       return false;
     }
     RexInputRef inputRef = (RexInputRef) exprs[i];
     if (inputRef.getIndex() != i) {
       assert !fail : "expr[" + i + "] has ordinal " + inputRef.getIndex();
       return false;
     }
     if (!RelOptUtil.eq("type1", exprs[i].getType(), "type2", fields[i].getType(), fail)) {
       return false;
     }
   }
   return true;
 }
コード例 #6
0
  public void onMatch(RelOptRuleCall call) {
    AggregateRel aggRel = call.rel(0);
    UnionRel unionRel = call.rel(1);

    if (!unionRel.all) {
      // This transformation is only valid for UNION ALL.
      // Consider t1(i) with rows (5), (5) and t2(i) with
      // rows (5), (10), and the query
      // select sum(i) from (select i from t1) union (select i from t2).
      // The correct answer is 15.  If we apply the transformation,
      // we get
      // select sum(i) from
      // (select sum(i) as i from t1) union (select sum(i) as i from t2)
      // which yields 25 (incorrect).
      return;
    }

    RelOptCluster cluster = unionRel.getCluster();

    List<AggregateCall> transformedAggCalls =
        transformAggCalls(
            aggRel.getCluster().getTypeFactory(),
            aggRel.getGroupSet().cardinality(),
            aggRel.getAggCallList());
    if (transformedAggCalls == null) {
      // we've detected the presence of something like AVG,
      // which we can't handle
      return;
    }

    boolean anyTransformed = false;

    // create corresponding aggs on top of each union child
    List<RelNode> newUnionInputs = new ArrayList<RelNode>();
    for (RelNode input : unionRel.getInputs()) {
      boolean alreadyUnique = RelMdUtil.areColumnsDefinitelyUnique(input, aggRel.getGroupSet());

      if (alreadyUnique) {
        newUnionInputs.add(input);
      } else {
        anyTransformed = true;
        newUnionInputs.add(
            new AggregateRel(cluster, input, aggRel.getGroupSet(), aggRel.getAggCallList()));
      }
    }

    if (!anyTransformed) {
      // none of the children could benefit from the pushdown,
      // so bail out (preventing the infinite loop to which most
      // planners would succumb)
      return;
    }

    // create a new union whose children are the aggs created above
    UnionRel newUnionRel = new UnionRel(cluster, newUnionInputs, true);

    AggregateRel newTopAggRel =
        new AggregateRel(cluster, newUnionRel, aggRel.getGroupSet(), transformedAggCalls);

    // In case we transformed any COUNT (which is always NOT NULL)
    // to SUM (which is always NULLABLE), cast back to keep the
    // planner happy.
    RelNode castRel = RelOptUtil.createCastRel(newTopAggRel, aggRel.getRowType(), false);

    call.transformTo(castRel);
  }