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Saxon a complete and conformant implementation of the XSLT 2.0, XQuery 1.0, and XPath 2.0 Recommendations published on 23 January 2007 by W3C
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package net.sf.saxon.expr;
import net.sf.saxon.om.Item;
import net.sf.saxon.om.NodeInfo;
import net.sf.saxon.om.SequenceIterator;
import net.sf.saxon.trace.ExpressionPresenter;
import net.sf.saxon.trans.XPathException;
import net.sf.saxon.type.*;
import net.sf.saxon.value.AtomicValue;
import net.sf.saxon.value.BooleanValue;
import net.sf.saxon.value.Value;
/**
* Castable Expression: implements "Expr castable as atomic-type?".
* The implementation simply wraps a cast expression with a try/catch.
*/
public final class CastableExpression extends UnaryExpression {
AtomicType targetType;
boolean allowEmpty;
/**
* Create a "castable" expression of the form "source castable as target"
* @param source The source expression
* @param target The type being tested against
* @param allowEmpty true if an empty sequence is acceptable, that is if the expression
* was written as "source castable as target?"
*/
public CastableExpression(Expression source, AtomicType target, boolean allowEmpty) {
super(source);
targetType = target;
this.allowEmpty = allowEmpty;
}
/**
* Get the target type
* @return the target type
*/
public AtomicType getTargetType() {
return targetType;
}
/**
* Determine whether the empty sequence is allowed
* @return true if an empty sequence is allowed
*/
public boolean allowsEmpty() {
return allowEmpty;
}
/**
* Simplify the expression
* @return the simplified expression
* @param visitor an expression visitor
*/
public Expression simplify(ExpressionVisitor visitor) throws XPathException {
operand = visitor.simplify(operand);
return preEvaluate(visitor);
}
private Expression preEvaluate(ExpressionVisitor visitor) throws XPathException {
if (Literal.isAtomic(operand)) {
return Literal.makeLiteral(
BooleanValue.get(effectiveBooleanValue(visitor.getStaticContext().makeEarlyEvaluationContext())));
}
if (Literal.isEmptySequence(operand)) {
return new Literal(BooleanValue.get(allowEmpty));
}
return this;
}
/**
* Type-check the expression
*/
public Expression typeCheck(ExpressionVisitor visitor, ItemType contextItemType) throws XPathException {
operand = visitor.typeCheck(operand, contextItemType);
// We need to take care here. The usual strategy of wrapping the operand in an expression that
// does type-checking doesn't work here, because an error in the type checking should be caught,
// while an error in evaluating the expression as written should not.
// SequenceType atomicType = SequenceType.makeSequenceType(
// BuiltInAtomicType.ANY_ATOMIC,
// (allowEmpty ? StaticProperty.ALLOWS_ZERO_OR_ONE
// : StaticProperty.EXACTLY_ONE));
//
// RoleLocator role = new RoleLocator(RoleLocator.TYPE_OP, "castable as", 0, null);
// role.setSourceLocator(this);
// try {
// operand = TypeChecker.staticTypeCheck(operand, atomicType, false, role, env);
// } catch (XPathException err) {
// return Literal.makeLiteral(BooleanValue.FALSE);
// }
final TypeHierarchy th = visitor.getConfiguration().getTypeHierarchy();
if (!CastExpression.isPossibleCast(
operand.getItemType(th).getAtomizedItemType().getPrimitiveType(),
targetType.getPrimitiveType())) {
return Literal.makeLiteral(BooleanValue.FALSE);
}
return preEvaluate(visitor);
}
/**
* Optimize the expression
*/
public Expression optimize(ExpressionVisitor visitor, ItemType contextItemType) throws XPathException {
operand = visitor.optimize(operand, contextItemType);
return preEvaluate(visitor);
}
/**
* Is this expression the same as another expression?
*/
public boolean equals(Object other) {
return super.equals(other) &&
targetType == ((CastableExpression)other).targetType &&
allowEmpty == ((CastableExpression)other).allowEmpty;
}
/**
* Determine the data type of the result of the Castable expression
* @param th the type hierarchy cache
*/
public ItemType getItemType(TypeHierarchy th) {
return BuiltInAtomicType.BOOLEAN;
}
public int computeCardinality() {
return StaticProperty.EXACTLY_ONE;
}
/**
* Determine the special properties of this expression
* @return {@link StaticProperty#NON_CREATIVE}.
*/
public int computeSpecialProperties() {
int p = super.computeSpecialProperties();
return p | StaticProperty.NON_CREATIVE;
}
/**
* Copy an expression. This makes a deep copy.
*
* @return the copy of the original expression
*/
public Expression copy() {
return new CastableExpression(getBaseExpression().copy(), targetType, allowEmpty);
}
/**
* Evaluate the expression
*/
public Item evaluateItem(XPathContext context) throws XPathException {
return BooleanValue.get(effectiveBooleanValue(context));
}
public boolean effectiveBooleanValue(XPathContext context) throws XPathException {
int count = 0;
SequenceIterator iter = operand.iterate(context);
while (true) {
Item item = iter.next();
if (item == null) {
break;
}
if (item instanceof NodeInfo) {
Value atomizedValue = ((NodeInfo)item).atomize();
int length = atomizedValue.getLength();
count += length;
if (count > 1) {
return false;
}
if (length != 0) {
AtomicValue av = (AtomicValue)atomizedValue.itemAt(0);
if (!isCastable(av, targetType, context)) {
return false;
}
}
} else {
AtomicValue av = (AtomicValue)item;
count++;
if (count > 1) {
return false;
}
if (!isCastable(av, targetType, context)) {
return false;
}
}
}
return count != 0 || allowEmpty;
}
/**
* Determine whether a value is castable to a given type
* @param value the value to be tested
* @param targetType the type to be tested against
* @param context XPath dynamic context
* @return true if the value is castable to the required type
*/
public static boolean isCastable(AtomicValue value, AtomicType targetType, XPathContext context) {
//if (targetType instanceof BuiltInAtomicType) {
return !(value.convert(targetType, true, context) instanceof ValidationFailure);
// } else {
// ConversionResult result =
// value.convert((AtomicType)targetType.getBuiltInBaseType(), context, true);
// if (result instanceof ValidationFailure) {
// return false;
// }
// AtomicValue val = (AtomicValue)result;
// result = targetType.setDerivedTypeLabel(val.copy(null), val.getStringValueCS(), true);
// return !(result instanceof ValidationFailure);
// }
}
/**
* Diagnostic print of expression structure. The abstract expression tree
* is written to the supplied output destination.
*/
public void explain(ExpressionPresenter out) {
out.startElement("castable");
out.emitAttribute("as", targetType.toString(out.getConfiguration().getNamePool()));
operand.explain(out);
out.endElement();
}
}
//
// The contents of this file are subject to the Mozilla Public License Version 1.0 (the "License");
// you may not use this file except in compliance with the License. You may obtain a copy of the
// License at http://www.mozilla.org/MPL/
//
// Software distributed under the License is distributed on an "AS IS" basis,
// WITHOUT WARRANTY OF ANY KIND, either express or implied.
// See the License for the specific language governing rights and limitations under the License.
//
// The Original Code is: all this file.
//
// The Initial Developer of the Original Code is Michael H. Kay
//
// Portions created by (your name) are Copyright (C) (your legal entity). All Rights Reserved.
//
// Contributor(s): none.
//