Esempio n. 1
0
Expression::Ptr NodeSortExpression::wrapAround(const Expression::Ptr &operand,
                                               const StaticContext::Ptr &context)
{
    Q_ASSERT(operand);
    Q_ASSERT(context);

    const Expression::Ptr sort(new NodeSortExpression(operand));
    context->wrapExpressionWith(operand.data(), sort);
    return sort;
}
Esempio n. 2
0
Expression::Ptr EmptySequence::create(const Expression *const replacementFor,
                                      const StaticContext::Ptr &context)
{
    Q_ASSERT(replacementFor);
    Q_ASSERT(context);

    const Expression::Ptr retval(new EmptySequence());
    context->wrapExpressionWith(replacementFor, retval);
    return retval;
}
Expression::Ptr IdFN::typeCheck(const StaticContext::Ptr &context,
                                const SequenceType::Ptr &reqType)
{
    if(m_hasCreatedSorter)
        return FunctionCall::typeCheck(context, reqType);
    else
    {
        const Expression::Ptr newMe(new NodeSortExpression(Expression::Ptr(this)));
        context->wrapExpressionWith(this, newMe);
        m_hasCreatedSorter = true;
        return newMe->typeCheck(context, reqType);
    }
}
Esempio n. 4
0
Expression::Ptr FunctionCall::typeCheck(const StaticContext::Ptr &context,
                                        const SequenceType::Ptr &reqType)
{
    /* We don't cache properties() at some stages because it can be invalidated
     * by the typeCheck(). */

    const FunctionSignature::Arity maxArgs = signature()->maximumArguments();
    /* We do this before the typeCheck() such that the appropriate conversions
     * are applied to the ContextItem. */
    if(m_operands.count() < maxArgs &&
       has(UseContextItem))
    {
        m_operands.append(Expression::Ptr(new ContextItem()));
        context->wrapExpressionWith(this, m_operands.last());
    }

    const Expression::Ptr me(UnlimitedContainer::typeCheck(context, reqType));
    if(me != this)
        return me;

    const Properties props(properties());

    if(props.testFlag(RewriteToEmptyOnEmpty) &&
       *CommonSequenceTypes::Empty == *m_operands.first()->staticType()->itemType())
    {
        return EmptySequence::create(this, context);
    }

    if(props.testFlag(LastOperandIsCollation) &&
       m_operands.count() == maxArgs)
    {
        m_operands.last() = Expression::Ptr(new CollationChecker(m_operands.last()));
        context->wrapExpressionWith(this, m_operands.last());
    }

    return me;
}
Esempio n. 5
0
Expression::Ptr ByIDCreator::create(const Expression::ID id,
                                    const Expression::List &operands,
                                    const StaticContext::Ptr &context,
                                    const SourceLocationReflection *const r)
{
    Q_ASSERT(context);

    QXmlName::LocalNameCode fnName;

    switch(id)
    {
        case Expression::IDExistsFN:
        {
            fnName = StandardLocalNames::exists;
            break;
        }
        case Expression::IDEmptyFN:
        {
            fnName = StandardLocalNames::empty;
            break;
        }
        default:
        {
            Q_ASSERT_X(false, Q_FUNC_INFO,
                       "Cannot create an expression of requested type; m_id is wrong.");
            return Expression::Ptr();
        }
    }

    /* The reason we don't simply do 'new ExistsFN()' ourselves, is that all FunctionCall
     * instances needs their FunctionSignature in order to function, and the FunctionFactories
     * sets that. */
    const QXmlName qName(StandardNamespaces::fn, fnName);

    const Expression::Ptr result(context->functionSignatures()->createFunctionCall(qName, operands, context, r));
    context->wrapExpressionWith(r, result);
    return result;
}
Esempio n. 6
0
Expression::Ptr TypeChecker::verifyType(const Expression::Ptr &operand,
                                        const SequenceType::Ptr &reqSeqType,
                                        const StaticContext::Ptr &context,
                                        const ReportContext::ErrorCode code,
                                        const Options options)
{
    const ItemType::Ptr reqType(reqSeqType->itemType());
    const Expression::Properties props(operand->properties());

    /* If operand requires a focus, do the necessary type checking for that. */
    if(props.testFlag(Expression::RequiresFocus) && options.testFlag(CheckFocus))
    {
        const ItemType::Ptr contextType(context->contextItemType());
        if(contextType)
        {
            if(props.testFlag(Expression::RequiresContextItem))
            {
                Q_ASSERT_X(operand->expectedContextItemType(), Q_FUNC_INFO,
                           "When the Expression sets the RequiresContextItem property, it must "
                           "return a type in expectedContextItemType()");
                const ItemType::Ptr expectedContextType(operand->expectedContextItemType());

                /* Allow the empty sequence. We don't want to trigger XPTY0020 on ()/... . */
                if(!expectedContextType->xdtTypeMatches(contextType) && contextType != CommonSequenceTypes::Empty)
                {
                    context->error(wrongType(context->namePool(), operand->expectedContextItemType(), contextType),
                                   ReportContext::XPTY0020, operand.data());
                    return operand;
                }
            }
        }
        else
        {
            context->error(QtXmlPatterns::tr("The focus is undefined."), ReportContext::XPDY0002, operand.data());
            return operand;
        }
    }

    SequenceType::Ptr operandSeqType(operand->staticType());
    ItemType::Ptr operandType(operandSeqType->itemType());

    /* This returns the operand if the types are identical or if operandType
     * is a subtype of reqType. */
    if(reqType->xdtTypeMatches(operandType) || *operandType == *CommonSequenceTypes::Empty)
        return operand;

    /* Since we haven't exited yet, it means that the operandType is a super type
     * of reqType, and that there hence is a path down to it through the
     * type hierachy -- but that doesn't necessarily mean that a up-cast(down the
     * hierarchy) would succeed. */

    Expression::Ptr result(operand);

    if(reqType->isAtomicType())
    {
        const Expression::ID opID = operand->id();
        if((opID == Expression::IDArgumentReference ||
                (opID == Expression::IDCardinalityVerifier && operand->operands().first()->is(Expression::IDArgumentReference)))
                && *BuiltinTypes::item == *operandType)
            return Expression::Ptr(new ArgumentConverter(result, reqType));

        if(!operandType->isAtomicType())
        {
            result = Expression::Ptr(new Atomizer(result));
            /* The atomizer might know more about the type. */
            operandType = result->staticType()->itemType();
        }

        if(reqType->xdtTypeMatches(operandType))
        {
            /* Atomization was sufficient. Either the expected type is xs:anyAtomicType
             * or the type the Atomizer knows it returns, matches the required type. */
            return result;
        }

        const bool compatModeEnabled = context->compatModeEnabled();

        if((options.testFlag(AutomaticallyConvert) && BuiltinTypes::xsUntypedAtomic->xdtTypeMatches(operandType)) ||
                (compatModeEnabled && BuiltinTypes::xsString->xdtTypeMatches(reqType)))
        {
            if(*reqType == *BuiltinTypes::numeric)
            {
                result = typeCheck(new UntypedAtomicConverter(result, BuiltinTypes::xsDouble, code),
                                   context, reqSeqType);
            }
            else
                result = typeCheck(new UntypedAtomicConverter(result, reqType, code), context, reqSeqType);

            /* The UntypedAtomicConverter might know more about the type, so reload. */
            operandType = result->staticType()->itemType();
        }
        else if(compatModeEnabled && *reqType == *BuiltinTypes::xsDouble)
        {
            const FunctionFactory::Ptr functions(context->functionSignatures());
            Expression::List numberArgs;
            numberArgs.append(operand);

            result = functions->createFunctionCall(QXmlName(StandardNamespaces::fn, StandardLocalNames::number),
                                                   numberArgs,
                                                   context,
                                                   operand.data())->typeCheck(context, reqSeqType);
            operandType = result->staticType()->itemType();
            context->wrapExpressionWith(operand.data(), result);
        }

        if(reqType->xdtTypeMatches(operandType))
            return result;

        /* Test if promotion will solve it; the xdtTypeMatches didn't
         * do that. */
        if(options.testFlag(AutomaticallyConvert) && promotionPossible(operandType, reqType, context))
        {
            if(options.testFlag(GeneratePromotion))
                return Expression::Ptr(new UntypedAtomicConverter(result, reqType));
            else
                return result;
        }

        if(operandType->xdtTypeMatches(reqType))
        {
            /* For example, operandType is numeric, and reqType is xs:integer. */
            return Expression::Ptr(new ItemVerifier(result, reqType, code));
        }
        else
        {
            context->error(wrongType(context->namePool(), reqType, operandType), code, operand.data());
            return result;
        }
    }
    else if(reqType->isNodeType())
    {

        ReportContext::ErrorCode myCode;

        if(*reqType == *CommonSequenceTypes::EBV->itemType())
            myCode = ReportContext::FORG0006;
        else
            myCode = code;

        /* empty-sequence() is considered valid because it's ok to do
         * for example nilled( () ). That is, to pass an empty sequence to a
         * function requiring for example node()?. */
        if(*operandType == *CommonSequenceTypes::Empty)
            return result;
        else if(!operandType->xdtTypeMatches(reqType))
        {
            context->error(wrongType(context->namePool(), reqType, operandType), myCode, operand.data());
            return result;
        }

        /* Operand must be an item. Thus, the sequence can contain both
         * nodes and atomic values: we have to verify. */
        return Expression::Ptr(new ItemVerifier(result, reqType, myCode));
    }
    else
    {
        Q_ASSERT(*reqType == *CommonSequenceTypes::Empty);

        /* element() doesn't match empty-sequence(), but element()* does. */
        if(!reqType->xdtTypeMatches(operandType) &&
                !operandSeqType->cardinality().allowsEmpty())
        {
            context->error(wrongType(context->namePool(), reqType, operandType),
                           code, operand.data());
            return result;
        }
    }

    /* This line should be reached if required type is
     * EBVType, and the operand is compatible. */
    return result;
}