Esempio n. 1
0
 private boolean isInstance(SequenceIterator iter, XPathContext context) throws XPathException {
   int count = 0;
   while (true) {
     Item item = iter.next();
     if (item == null) break;
     count++;
     if (!targetType.matchesItem(item, false, context.getConfiguration())) {
       return false;
     }
     if (count == 2 && !Cardinality.allowsMany(targetCardinality)) {
       return false;
     }
   }
   return !(count == 0 && ((targetCardinality & StaticProperty.ALLOWS_ZERO) == 0));
 }
Esempio n. 2
0
 /**
  * get HashCode for comparing two expressions. Note that this hashcode gives the same result for
  * (A op B) and for (B op A), whether or not the operator is commutative.
  */
 @Override
 public int hashCode() {
   return super.hashCode() ^ targetType.hashCode() ^ targetCardinality;
 }
Esempio n. 3
0
  /** Type-check the expression */
  public Expression typeCheck(ExpressionVisitor visitor, ItemType contextItemType)
      throws XPathException {

    Configuration config = visitor.getConfiguration();
    NamePool namePool = config.getNamePool();
    StaticContext env = visitor.getStaticContext();
    if (contextItemType == null) {
      typeError(
          visitor,
          "Axis step " + toString(namePool) + " cannot be used here: the context item is undefined",
          "XPDY0002",
          null);
    }
    if (contextItemType.isAtomicType()) {
      typeError(
          visitor,
          "Axis step "
              + toString(namePool)
              + " cannot be used here: the context item is an atomic value",
          "XPTY0020",
          null);
    }

    if (this.contextItemType == contextItemType && doneWarnings) {
      return this;
    }

    this.contextItemType = contextItemType;
    doneWarnings = true;

    if (contextItemType instanceof NodeTest) {
      int origin = contextItemType.getPrimitiveType();
      if (origin != Type.NODE) {
        if (Axis.isAlwaysEmpty(axis, origin)) {
          env.issueWarning(
              "The "
                  + Axis.axisName[axis]
                  + " axis starting at "
                  + (origin == Type.ELEMENT || origin == Type.ATTRIBUTE ? "an " : "a ")
                  + NodeKindTest.nodeKindName(origin)
                  + " node will never select anything",
              getSourceLocator());
          return Literal.makeEmptySequence();
        }
      }

      if (test != null) {
        int kind = test.getPrimitiveType();
        if (kind != Type.NODE) {
          if (!Axis.containsNodeKind(axis, kind)) {
            env.issueWarning(
                "The "
                    + Axis.axisName[axis]
                    + " axis will never select any "
                    + NodeKindTest.nodeKindName(kind)
                    + " nodes",
                getSourceLocator());
            return Literal.makeEmptySequence();
          }
        }
        if (axis == Axis.SELF && kind != Type.NODE && origin != Type.NODE && kind != origin) {
          env.issueWarning(
              "The self axis will never select any "
                  + NodeKindTest.nodeKindName(kind)
                  + " nodes when starting at "
                  + (origin == Type.ELEMENT || origin == Type.ATTRIBUTE ? "an " : "a ")
                  + NodeKindTest.nodeKindName(origin)
                  + " node",
              getSourceLocator());
          return Literal.makeEmptySequence();
        }
        if (axis == Axis.SELF) {
          itemType = new CombinedNodeTest(test, Token.INTERSECT, (NodeTest) contextItemType);
        }

        // If the content type of the context item is known, see whether the node test can select
        // anything

        if (contextItemType instanceof DocumentNodeTest && kind == Type.ELEMENT) {
          NodeTest elementTest = ((DocumentNodeTest) contextItemType).getElementTest();
          Set<Integer> outermostElementNames = elementTest.getRequiredNodeNames();
          if (outermostElementNames != null) {
            Set<Integer> selectedElementNames = test.getRequiredNodeNames();
            if (selectedElementNames != null) {
              if (axis == Axis.CHILD) {
                // check that the name appearing in the step is one of the names allowed by the
                // nodetest

                if (SetUtils.intersect(selectedElementNames, outermostElementNames).isEmpty()) {
                  env.issueWarning(
                      "Starting at a document node, the step is selecting an element whose name "
                          + "is not among the names of child elements permitted for this document node type",
                      getSourceLocator());

                  return Literal.makeEmptySequence();
                }
                itemType = elementTest;
                return this;

              } else if (axis == Axis.DESCENDANT) {
                // check that the name appearing in the step is one of the names allowed by the
                // nodetest
                boolean canMatchOutermost =
                    !SetUtils.intersect(selectedElementNames, outermostElementNames).isEmpty();
                if (!canMatchOutermost) {
                  // The expression /descendant::x starting at the document node doesn't match the
                  // outermost
                  // element, so replace it by child::*/descendant::x, and check that
                  PathExpression path =
                      new PathExpression(
                          new AxisExpression(Axis.CHILD, elementTest),
                          new AxisExpression(Axis.DESCENDANT, test));
                  ExpressionTool.copyLocationInfo(this, path);
                  return path.typeCheck(visitor, contextItemType);
                }
              }
            }
          }
        }
      }
    }

    return this;
  }