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////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Copyright (c) 2018-2022 Saxonica Limited
// This Source Code Form is subject to the terms of the Mozilla Public License, v. 2.0.
// If a copy of the MPL was not distributed with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
// This Source Code Form is "Incompatible With Secondary Licenses", as defined by the Mozilla Public License, v. 2.0.
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

package net.sf.saxon.expr;

import net.sf.saxon.expr.instruct.OriginalFunction;
import net.sf.saxon.expr.parser.ContextItemStaticInfo;
import net.sf.saxon.expr.parser.ExpressionVisitor;
import net.sf.saxon.expr.parser.RebindingMap;
import net.sf.saxon.functions.SystemFunction;
import net.sf.saxon.om.Function;
import net.sf.saxon.om.Sequence;
import net.sf.saxon.om.StructuredQName;
import net.sf.saxon.trace.ExpressionPresenter;
import net.sf.saxon.trans.XPathException;
import net.sf.saxon.type.*;

/**
 * A call to a function that is known statically. This is a stricter definition than "static function
 * call" in the XPath grammar, because it excludes calls that might be re-bound to a different function
 * as a result of XSLT overrides in a different package, calls to functions that hold dynamic context
 * information in their closure, and so on.
 */
public class StaticFunctionCall extends FunctionCall implements Callable {

    private final Function target;

    public StaticFunctionCall(Function target, Expression[] arguments) {
        if (target.getArity() != arguments.length) {
            throw new IllegalArgumentException("Function call to " + target.getFunctionName() + " with wrong number of arguments (" + arguments.length + ")");
        }
        this.target = target;
        setOperanda(arguments, target.getOperandRoles());
    }

    /**
     * Get the target function to be called
     *
     * @return the target function
     */

    public Function getTargetFunction() {
        return target;
    }


    /**
     * Get the target function to be called
     *
     * @param context the dynamic evaluation context (not used in this implementation)
     * @return the target function
     */
    @Override
    public Function getTargetFunction(XPathContext context) {
        return getTargetFunction();
    }

    /**
     * Get the qualified of the function being called
     *
     * @return the qualified name
     */
    @Override
    public StructuredQName getFunctionName() {
        return target.getFunctionName();
    }

    /**
     * Ask whether this expression is a call on a particular function
     *
     * @param function the implementation class of the function in question
     * @return true if the expression is a call on the function
     */

    @Override
    public boolean isCallOn(Class function) {
        return function.isAssignableFrom(target.getClass());
    }

    /**
     * Type-check the expression. This also calls preEvaluate() to evaluate the function
     * if all the arguments are constant; functions that do not require this behavior
     * can override the preEvaluate method.
     *
     * @param visitor the expression visitor
     * @param contextInfo information about the type of the context item
     */
    @Override
    public Expression typeCheck(ExpressionVisitor visitor, ContextItemStaticInfo contextInfo) throws XPathException {
        checkFunctionCall(target, visitor);
        return super.typeCheck(visitor, contextInfo);
    }

    /**
     * Copy an expression. This makes a deep copy.
     *
     * @return the copy of the original expression
     * @param rebindings  variables that need to be re-bound
     */
    @Override
    public Expression copy(RebindingMap rebindings) {
        Expression[] args = new Expression[getArity()];
        for (int i=0; iThis method should always return a result, though it may be the best approximation
     * that is available at the time.

* * @return a value such as Type.STRING, Type.BOOLEAN, Type.NUMBER, * Type.NODE, or Type.ITEM (meaning not known at compile time) */ @Override public ItemType getItemType() { return target.getFunctionItemType().getResultType().getPrimaryType(); } /** * Get the static type of the expression as a UType, following precisely the type * inference rules defined in the XSLT 3.0 specification. * * @param contextItemType the static type of the context item * @return the static item type of the expression according to the XSLT 3.0 defined rules */ @Override public UType getStaticUType(UType contextItemType) { UType result = getItemType().getUType(); for (Operand o : operands()) { if (o.getUsage() == OperandUsage.TRANSMISSION) { result = result.intersection(o.getChildExpression().getStaticUType(contextItemType)); } } return result; } /** * Call the Callable. * * @param context the dynamic evaluation context * @param arguments the values of the arguments, supplied as Sequences. *

Generally it is advisable, if calling iterate() to process a supplied sequence, to * call it only once; if the value is required more than once, it should first be converted * to a {@link net.sf.saxon.om.GroundedValue} by calling the utility methd * SequenceTool.toGroundedValue().

*

If the expected value is a single item, the item should be obtained by calling * Sequence.head(): it cannot be assumed that the item will be passed as an instance of * {@link net.sf.saxon.om.Item} or {@link net.sf.saxon.value.AtomicValue}.

*

It is the caller's responsibility to perform any type conversions required * to convert arguments to the type expected by the callee. An exception is where * this Callable is explicitly an argument-converting wrapper around the original * Callable.

* @return the result of the evaluation, in the form of a Sequence. It is the responsibility * of the callee to ensure that the type of result conforms to the expected result type. * @throws net.sf.saxon.trans.XPathException if a dynamic error occurs during the evaluation of the expression */ @Override public Sequence call(XPathContext context, Sequence[] arguments) throws XPathException { return target.call(context, arguments); } /** * Get a name identifying the kind of expression, in terms meaningful to a user. * * @return a name identifying the kind of expression, in terms meaningful to a user. * The name will always be in the form of a lexical XML QName, and should match the name used * in explain() output displaying the expression. */ @Override public String getExpressionName() { return "staticFunctionCall"; } /** * Serialized output of expression structure. The abstract expression tree * is written to the supplied output destination. * * @param out destination of the SEF output */ @Override public void export(ExpressionPresenter out) throws XPathException { if (target instanceof OriginalFunction) { ExpressionPresenter.ExportOptions options = (ExpressionPresenter.ExportOptions) out.getOptions(); OriginalFunction pf = (OriginalFunction) target; out.startElement("origFC", this); out.emitAttribute("name", pf.getFunctionName()); out.emitAttribute("pack", options.packageMap.get(pf.getComponent().getContainingPackage()) + ""); for (Operand o : operands()) { o.getChildExpression().export(out); } out.endElement(); } else { if (target instanceof UnionCastableFunction) { // Bug 2611. Bug 3822. final UnionType targetType = ((UnionConstructorFunction) target).getTargetType(); out.startElement("castable", this); if (targetType instanceof LocalUnionType) { out.emitAttribute("to", AlphaCode.fromItemType(targetType)); } else { out.emitAttribute("as", targetType.toExportString()); } out.emitAttribute("flags", "u" + (((UnionConstructorFunction) target).isAllowEmpty() ? "e" : "")); for (Operand o : operands()) { o.getChildExpression().export(out); } out.endElement(); } else if (target instanceof ListCastableFunction) { // Bug 2611. Bug 3822. out.startElement("castable", this); out.emitAttribute("as", ((ListConstructorFunction) target).getTargetType().getStructuredQName()); out.emitAttribute("flags", "l" + (((ListConstructorFunction) target).isAllowEmpty() ? "e" : "")); for (Operand o : operands()) { o.getChildExpression().export(out); } out.endElement(); } else if (target instanceof UnionConstructorFunction) { // Bug 2611. final UnionType targetType = ((UnionConstructorFunction) target).getTargetType(); out.startElement("cast", this); if (targetType instanceof LocalUnionType) { out.emitAttribute("to", AlphaCode.fromItemType(targetType)); } else{ out.emitAttribute("as", targetType.toExportString()); } out.emitAttribute("flags", "u" + (((UnionConstructorFunction) target).isAllowEmpty() ? "e" : "")); for (Operand o : operands()) { o.getChildExpression().export(out); } out.endElement(); } else if (target instanceof ListConstructorFunction) { // Bug 2611. out.startElement("cast", this); out.emitAttribute("as", ((ListConstructorFunction) target).getTargetType().getStructuredQName()); out.emitAttribute("flags", "l" + (((ListConstructorFunction) target).isAllowEmpty() ? "e" : "")); for (Operand o : operands()) { o.getChildExpression().export(out); } out.endElement(); } else { super.export(out); } } } }




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