예제 #1
0
 /**
  * Resolves a multi-part identifier such as "SCHEMA.EMP.EMPNO" to a namespace. The returned
  * namespace may represent a schema, table, column, etc.
  *
  * @pre names.size() > 0
  * @post return != null
  */
 public static SqlValidatorNamespace lookup(SqlValidatorScope scope, List<String> names) {
   Util.pre(names.size() > 0, "names.size() > 0");
   SqlValidatorNamespace namespace = null;
   for (int i = 0; i < names.size(); i++) {
     String name = names.get(i);
     if (i == 0) {
       namespace = scope.resolve(name, null, null);
     } else {
       namespace = namespace.lookupChild(name);
     }
   }
   Util.permAssert(namespace != null, "post: namespace != null");
   return namespace;
 }
예제 #2
0
 public RelNode convertSqlToRel(String sql) {
   Util.pre(sql != null, "sql != null");
   final SqlNode sqlQuery;
   try {
     sqlQuery = parseQuery(sql);
   } catch (Exception e) {
     throw Util.newInternal(e); // todo: better handling
   }
   final RelDataTypeFactory typeFactory = getTypeFactory();
   final Prepare.CatalogReader catalogReader = createCatalogReader(typeFactory);
   final SqlValidator validator = createValidator(catalogReader, typeFactory);
   final SqlToRelConverter converter =
       createSqlToRelConverter(validator, catalogReader, typeFactory);
   converter.setTrimUnusedFields(true);
   final SqlNode validatedQuery = validator.validate(sqlQuery);
   final RelNode rel = converter.convertQuery(validatedQuery, false, true);
   Util.post(rel != null, "return != null");
   return rel;
 }
예제 #3
0
파일: RexUtil.java 프로젝트: kunlqt/optiq
 /** Returns whether an array of expressions has any common sub-expressions. */
 public static boolean containCommonExprs(RexNode[] exprs, boolean fail) {
   final ExpressionNormalizer visitor = new ExpressionNormalizer(false);
   for (int i = 0; i < exprs.length; i++) {
     try {
       exprs[i].accept(visitor);
     } catch (ExpressionNormalizer.SubExprExistsException e) {
       Util.swallow(e, null);
       assert !fail;
     }
   }
   return false;
 }
예제 #4
0
파일: RexUtil.java 프로젝트: kunlqt/optiq
 /**
  * Replaces the operands of a call. The new operands' types must match the old operands' types.
  */
 public static RexCall replaceOperands(RexCall call, RexNode[] operands) {
   if (call.operands == operands) {
     return call;
   }
   for (int i = 0; i < operands.length; i++) {
     RelDataType oldType = call.operands[i].getType();
     RelDataType newType = operands[i].getType();
     if (!oldType.isNullable() && newType.isNullable()) {
       throw Util.newInternal("invalid nullability");
     }
     assert (oldType.toString().equals(newType.toString()));
   }
   return new RexCall(call.getType(), call.getOperator(), operands);
 }
예제 #5
0
파일: RexUtil.java 프로젝트: kunlqt/optiq
 /**
  * Returns whether a given tree contains any {@link org.eigenbase.rex.RexFieldAccess} nodes.
  *
  * @param node a RexNode tree
  */
 public static boolean containsFieldAccess(RexNode node) {
   try {
     RexVisitor<Void> visitor =
         new RexVisitorImpl<Void>(true) {
           public Void visitFieldAccess(RexFieldAccess fieldAccess) {
             throw new Util.FoundOne(fieldAccess);
           }
         };
     node.accept(visitor);
     return false;
   } catch (Util.FoundOne e) {
     Util.swallow(e, null);
     return true;
   }
 }
예제 #6
0
파일: RexUtil.java 프로젝트: kunlqt/optiq
 /**
  * Returns whether a given tree contains any {link RexInputRef} nodes.
  *
  * @param node a RexNode tree
  */
 public static boolean containsInputRef(RexNode node) {
   try {
     RexVisitor<Void> visitor =
         new RexVisitorImpl<Void>(true) {
           public Void visitInputRef(RexInputRef inputRef) {
             throw new Util.FoundOne(inputRef);
           }
         };
     node.accept(visitor);
     return false;
   } catch (Util.FoundOne e) {
     Util.swallow(e, null);
     return true;
   }
 }
예제 #7
0
  public static void getSchemaObjectMonikers(
      SqlValidatorCatalogReader catalogReader, List<String> names, List<SqlMoniker> hints) {
    // Assume that the last name is 'dummy' or similar.
    List<String> subNames = Util.skipLast(names);
    hints.addAll(catalogReader.getAllSchemaObjectNames(subNames));

    // If the name has length 0, try prepending the name of the default
    // schema. So, the empty name would yield a list of tables in the
    // default schema, as well as a list of schemas from the above code.
    if (subNames.size() == 0) {
      hints.addAll(
          catalogReader.getAllSchemaObjectNames(
              Collections.singletonList(catalogReader.getSchemaName())));
    }
  }
예제 #8
0
파일: RexUtil.java 프로젝트: kunlqt/optiq
 /**
  * Returns whether an array of expressions contains a forward reference. That is, if expression #i
  * contains a {@link RexInputRef} referencing field i or greater.
  *
  * @param exprs Array of expressions
  * @param inputRowType Input row type
  * @param fail Whether to assert if there is a forward reference
  * @return Whether there is a forward reference
  */
 public static boolean containForwardRefs(
     RexNode[] exprs, RelDataType inputRowType, boolean fail) {
   final ForwardRefFinder visitor = new ForwardRefFinder(inputRowType);
   for (int i = 0; i < exprs.length; i++) {
     RexNode expr = exprs[i];
     visitor.setLimit(i); // field cannot refer to self or later field
     try {
       expr.accept(visitor);
     } catch (ForwardRefFinder.IllegalForwardRefException e) {
       Util.swallow(e, null);
       assert !fail : "illegal forward reference in " + expr;
       return true;
     }
   }
   return false;
 }
예제 #9
0
파일: RexUtil.java 프로젝트: kunlqt/optiq
 /**
  * Returns whether a given node contains a RexCall with a specified operator
  *
  * @param operator to look for
  * @param node a RexNode tree
  */
 public static RexCall findOperatorCall(final SqlOperator operator, RexNode node) {
   try {
     RexVisitor<Void> visitor =
         new RexVisitorImpl<Void>(true) {
           public Void visitCall(RexCall call) {
             if (call.getOperator().equals(operator)) {
               throw new Util.FoundOne(call);
             }
             return super.visitCall(call);
           }
         };
     node.accept(visitor);
     return null;
   } catch (Util.FoundOne e) {
     Util.swallow(e, null);
     return (RexCall) e.getNode();
   }
 }
예제 #10
0
  /**
   * Derives an alias for a node, and invents a mangled identifier if it cannot.
   *
   * <p>Examples:
   *
   * <ul>
   *   <li>Alias: "1 + 2 as foo" yields "foo"
   *   <li>Identifier: "foo.bar.baz" yields "baz"
   *   <li>Anything else yields "expr$<i>ordinal</i>"
   * </ul>
   *
   * @return An alias, if one can be derived; or a synthetic alias "expr$<i>ordinal</i>" if ordinal
   *     >= 0; otherwise null
   */
  public static String getAlias(SqlNode node, int ordinal) {
    switch (node.getKind()) {
      case AS:
        // E.g. "1 + 2 as foo" --> "foo"
        return ((SqlCall) node).getOperands()[1].toString();

      case OVER:
        // E.g. "bids over w" --> "bids"
        return getAlias(((SqlCall) node).getOperands()[0], ordinal);

      case IDENTIFIER:
        // E.g. "foo.bar" --> "bar"
        return Util.last(((SqlIdentifier) node).names);

      default:
        if (ordinal < 0) {
          return null;
        } else {
          return SqlUtil.deriveAliasFromOrdinal(ordinal);
        }
    }
  }
예제 #11
0
파일: RexUtil.java 프로젝트: kunlqt/optiq
 SubExprExistsException(RexNode expr) {
   Util.discard(expr);
 }
예제 #12
0
 public String apply(String original, int attempt, int size) {
   return Util.first(original, "$f") + size;
 }
예제 #13
0
 public String apply(String original, int attempt, int size) {
   return Util.first(original, "EXPR$") + attempt;
 }
 public String getSignatureTemplate(int operandsCount) {
   Util.discard(operandsCount);
   return "{0}({1} FROM {2})";
 }
예제 #15
0
 /**
  * Reduces a list of operators and arguments according to the rules of precedence and
  * associativity. Returns the ordinal of the node which replaced the expression.
  *
  * <p>The default implementation throws {@link UnsupportedOperationException}.
  *
  * @param ordinal indicating the ordinal of the current operator in the list on which a possible
  *     reduction can be made
  * @param list List of alternating {@link org.eigenbase.sql.parser.SqlParserUtil.ToTreeListItem}
  *     and {@link SqlNode}
  * @return ordinal of the node which replaced the expression
  */
 public int reduceExpr(int ordinal, List<Object> list) {
   throw Util.needToImplement(this);
 }
 public String getSignatureTemplate(final int operandsCount) {
   Util.discard(operandsCount);
   return "{1} {0} {2} AND {3}";
 }