Package client.net.sf.saxon.ce.expr

Source Code of client.net.sf.saxon.ce.expr.GeneralComparison10

package client.net.sf.saxon.ce.expr;

import client.net.sf.saxon.ce.expr.sort.AtomicComparer;
import client.net.sf.saxon.ce.expr.sort.CodepointCollator;
import client.net.sf.saxon.ce.expr.sort.GenericAtomicComparer;
import client.net.sf.saxon.ce.functions.NumberFn;
import client.net.sf.saxon.ce.lib.StringCollator;
import client.net.sf.saxon.ce.om.Item;
import client.net.sf.saxon.ce.om.SequenceIterator;
import client.net.sf.saxon.ce.trans.XPathException;
import client.net.sf.saxon.ce.type.BuiltInAtomicType;
import client.net.sf.saxon.ce.type.ItemType;
import client.net.sf.saxon.ce.type.TypeHierarchy;
import client.net.sf.saxon.ce.value.AtomicValue;
import client.net.sf.saxon.ce.value.BooleanValue;
import client.net.sf.saxon.ce.value.DoubleValue;
import client.net.sf.saxon.ce.value.StringValue;

import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;

/**
* GeneralComparison10: a boolean expression that compares two expressions
* for equals, not-equals, greater-than or less-than. This implements the operators
* =, !=, <, >, etc. This version of the class implements general comparisons
* in XPath 1.0 backwards compatibility mode, as defined in the Oct 2004 revision
* of the specifications.
*/

public class GeneralComparison10 extends BinaryExpression {

    protected int singletonOperator;
    protected AtomicComparer comparer;
    private boolean atomize0 = true;
    private boolean atomize1 = true;
    private boolean maybeBoolean0 = true;
    private boolean maybeBoolean1 = true;

    /**
    * Create a general comparison identifying the two operands and the operator
    * @param p0 the left-hand operand
    * @param op the operator, as a token returned by the Tokenizer (e.g. Token.LT)
    * @param p1 the right-hand operand
    */

    public GeneralComparison10(Expression p0, int op, Expression p1) {
        super(p0, op, p1);
        singletonOperator = getSingletonOperator(op);
    }

    /**
    * Determine the static cardinality. Returns [1..1]
    */

    public int computeCardinality() {
        return StaticProperty.EXACTLY_ONE;
    }

    /**
    * Type-check the expression
    * @return the checked expression
    */

    public Expression typeCheck(ExpressionVisitor visitor, ItemType contextItemType) throws XPathException {

        operand0 = visitor.typeCheck(operand0, contextItemType);
        operand1 = visitor.typeCheck(operand1, contextItemType);

        StaticContext env = visitor.getStaticContext();
        StringCollator comp = env.getConfiguration().getNamedCollation(env.getDefaultCollationName());
        if (comp==null) {
            comp = CodepointCollator.getInstance();
        }

        XPathContext context = env.makeEarlyEvaluationContext();
        comparer = new GenericAtomicComparer(comp, context);

        // evaluate the expression now if both arguments are constant

        if ((operand0 instanceof Literal) && (operand1 instanceof Literal)) {
            return Literal.makeLiteral((AtomicValue)evaluateItem(context));
        }

        return this;
    }

    public void setAtomicComparer(AtomicComparer comparer) {
        this.comparer = comparer;
    }

    /**
    * Optimize the expression
    * @return the checked expression
    */

    public Expression optimize(ExpressionVisitor visitor, ItemType contextItemType) throws XPathException {

        Optimizer opt = visitor.getConfiguration().getOptimizer();
        StaticContext env = visitor.getStaticContext();

        operand0 = visitor.optimize(operand0, contextItemType);
        operand1 = visitor.optimize(operand1, contextItemType);

        // Neither operand needs to be sorted

        operand0 = ExpressionTool.unsorted(opt, operand0, false);
        operand1 = ExpressionTool.unsorted(opt, operand1, false);

        // evaluate the expression now if both arguments are constant

        if ((operand0 instanceof Literal) && (operand1 instanceof Literal)) {
            return Literal.makeLiteral(
                    (AtomicValue)evaluateItem(env.makeEarlyEvaluationContext()));
        }

        final TypeHierarchy th = env.getConfiguration().getTypeHierarchy();
        ItemType type0 = operand0.getItemType(th);
        ItemType type1 = operand1.getItemType(th);

        if (type0.isAtomicType()) {
            atomize0 = false;
        }
        if (type1.isAtomicType()) {
            atomize1 = false;
        }

        if (th.relationship(type0, BuiltInAtomicType.BOOLEAN) == TypeHierarchy.DISJOINT) {
            maybeBoolean0 = false;
        }
        if (th.relationship(type1, BuiltInAtomicType.BOOLEAN) == TypeHierarchy.DISJOINT) {
            maybeBoolean1 = false;
        }

        if (!maybeBoolean0 && !maybeBoolean1) {
            int n0 = th.relationship(type0, BuiltInAtomicType.NUMERIC);
            int n1 = th.relationship(type1, BuiltInAtomicType.NUMERIC);
            boolean maybeNumeric0 = (n0 != TypeHierarchy.DISJOINT);
            boolean maybeNumeric1 = (n1 != TypeHierarchy.DISJOINT);
            boolean numeric0 = (n0 == TypeHierarchy.SUBSUMED_BY || n0 == TypeHierarchy.SAME_TYPE);
            boolean numeric1 = (n1 == TypeHierarchy.SUBSUMED_BY || n1 == TypeHierarchy.SAME_TYPE);
            // Use the 2.0 path if we don't have to deal with the possibility of boolean values,
            // or the complications of converting values to numbers
            if (operator == Token.EQUALS || operator == Token.NE) {
                if ((!maybeNumeric0 && !maybeNumeric1) || (numeric0 && numeric1)) {
                    GeneralComparison gc = new GeneralComparison20(operand0, operator, operand1);
                    BinaryExpression binExp = visitor.getConfiguration().getOptimizer().simplifyGeneralComparison(gc, false);
                    ExpressionTool.copyLocationInfo(this, binExp);
                    return visitor.optimize(visitor.typeCheck(binExp, contextItemType), contextItemType);
                }
            } else if (numeric0 && numeric1) {
                GeneralComparison gc = new GeneralComparison20(operand0, operator, operand1);
                BinaryExpression binExp = visitor.getConfiguration().getOptimizer().simplifyGeneralComparison(gc, false);
                ExpressionTool.copyLocationInfo(this, binExp);
                return visitor.optimize(visitor.typeCheck(binExp, contextItemType), contextItemType);
            }
        }

        return this;
    }



    /**
    * Evaluate the expression in a given context
    * @param context the given context for evaluation
    * @return a BooleanValue representing the result of the numeric comparison of the two operands
    */

    public Item evaluateItem(XPathContext context) throws XPathException {
        return BooleanValue.get(effectiveBooleanValue(context));
    }

    /**
    * Evaluate the expression in a boolean context
    * @param context the given context for evaluation
    * @return a boolean representing the result of the numeric comparison of the two operands
    */

    public boolean effectiveBooleanValue(XPathContext context) throws XPathException {

        // If the first operand is a singleton boolean,
        // compare it with the effective boolean value of the other operand

        SequenceIterator iter0 = null;

        if (maybeBoolean0) {
            iter0 = operand0.iterate(context);
            Item i01 = iter0.next();
            Item i02 = (i01 == null ? null : iter0.next());
            if (i01 instanceof BooleanValue && i02 == null) {
                boolean b = operand1.effectiveBooleanValue(context);
                return compare((BooleanValue)i01, singletonOperator, BooleanValue.get(b), comparer, context);
            }
            if (i01 == null && !maybeBoolean1) {
                return false;
            }
        }

        // If the second operand is a singleton boolean,
        // compare it with the effective boolean value of the other operand

        SequenceIterator iter1 = null;

        if (maybeBoolean1) {
            iter1 = operand1.iterate(context);
            Item i11 = iter1.next();
            Item i12 = (i11 == null ? null : iter1.next());
            if (i11 instanceof BooleanValue && i12 == null) {
                boolean b = operand0.effectiveBooleanValue(context);
                return compare(BooleanValue.get(b), singletonOperator, (BooleanValue)i11, comparer, context);
            }
            if (i11 == null && !maybeBoolean0) {
                return false;
            }
        }

        // Atomize both operands where necessary

        if (iter0 == null) {
            iter0 = operand0.iterate(context);
        } else {
            iter0 = iter0.getAnother();
        }

        if (iter1 == null) {
            iter1 = operand1.iterate(context);
        } else {
            iter1 = iter1.getAnother();
        }

        if (atomize0) {
            iter0 = Atomizer.getAtomizingIterator(iter0);
        }

        if (atomize1) {
            iter1 = Atomizer.getAtomizingIterator(iter1);
        }

        // If the operator is one of <, >, <=, >=, then convert both operands to sequences of xs:double
        // using the number() function

        if (operator == Token.LT || operator == Token.LE || operator == Token.GT || operator == Token.GE) {
            ItemMappingFunction map = new ItemMappingFunction() {
                public Item mapItem(Item item) throws XPathException {
                    return NumberFn.convert((AtomicValue)item);
                }
            };
            iter0 = new ItemMappingIterator(iter0, map, true);
            iter1 = new ItemMappingIterator(iter1, map, true);
        }

        // Compare all pairs of atomic values in the two atomized sequences

        List seq1 = null;
        while (true) {
            AtomicValue item0 = (AtomicValue)iter0.next();
            if (item0 == null) {
                return false;
            }
            if (iter1 != null) {
                while (true) {
                    AtomicValue item1 = (AtomicValue)iter1.next();
                    if (item1 == null) {
                        iter1 = null;
                        if (seq1 == null) {
                            // second operand is empty
                            return false;
                        }
                        break;
                    }
                    try {
                        if (compare(item0, singletonOperator, item1, comparer, context)) {
                            return true;
                        }
                        if (seq1 == null) {
                            seq1 = new ArrayList(40);
                        }
                        seq1.add(item1);
                    } catch (XPathException e) {
                        // re-throw the exception with location information added
                        e.maybeSetLocation(this.getSourceLocator());
                        e.maybeSetContext(context);
                        throw e;
                    }
                }
            } else {
                //assert seq1 != null;
                Iterator listIter1 = seq1.iterator();
                while (listIter1.hasNext()) {
                    AtomicValue item1 = (AtomicValue)listIter1.next();
                    if (compare(item0, singletonOperator, item1, comparer, context)) {
                        return true;
                    }
                }
            }
        }
    }


    /**
    * Compare two atomic values
     * @param a0 the first value to be compared
     * @param operator the comparison operator
     * @param a1 the second value to be compared
     * @param comparer the comparer to be used (perhaps including a collation)
     * @param context the XPath dynamic context
     * @return the result of the comparison
    */

    private static boolean compare(AtomicValue a0,
                                     int operator,
                                     AtomicValue a1,
                                     AtomicComparer comparer,
                                     XPathContext context) throws XPathException {

        comparer = comparer.provideContext(context);

        BuiltInAtomicType t0 = a0.getPrimitiveType();
        BuiltInAtomicType t1 = a1.getPrimitiveType();

        // If either operand is a number, convert both operands to xs:double using
        // the rules of the number() function, and compare them

        if (t0.isPrimitiveNumeric() || t1.isPrimitiveNumeric()) {
            DoubleValue v0 = NumberFn.convert(a0);
            DoubleValue v1 = NumberFn.convert(a1);
            return ValueComparison.compare(v0, operator, v1, comparer, false);
        }

        // If either operand is a string, or if both are untyped atomic, convert
        // both operands to strings and compare them

        if (t0.equals(BuiltInAtomicType.STRING) || t1.equals(BuiltInAtomicType.STRING) ||
                (t0.equals(BuiltInAtomicType.UNTYPED_ATOMIC) && t1.equals(BuiltInAtomicType.UNTYPED_ATOMIC))) {
            StringValue s0 = (StringValue)a0.convert(BuiltInAtomicType.STRING, true).asAtomic();
            StringValue s1 = (StringValue)a1.convert(BuiltInAtomicType.STRING, true).asAtomic();
            return ValueComparison.compare(s0, operator, s1, comparer, false);
        }

        // If either operand is untyped atomic,
        // convert it to the type of the other operand, and compare

        if (t0.equals(BuiltInAtomicType.UNTYPED_ATOMIC)) {
            a0 = a0.convert(t1, true).asAtomic();
        }

        if (t1.equals(BuiltInAtomicType.UNTYPED_ATOMIC)) {
            a1 = a1.convert(t0, true).asAtomic();
        }

        return ValueComparison.compare(a0, operator, a1, comparer, false);
    }

    /**
    * Determine the data type of the expression
    * @return Type.BOOLEAN
     * @param th the type hierarchy cache
     */

    public ItemType getItemType(TypeHierarchy th) {
        return BuiltInAtomicType.BOOLEAN;
    }

    /**
    * Return the singleton form of the comparison operator, e.g. FEQ for EQUALS, FGT for GT
     * @param op the general comparison operator, for example Token.EQUALS
     * @return the corresponding value comparison operator, for example Token.FEQ
    */

    private static int getSingletonOperator(int op) {
        switch (op) {
            case Token.EQUALS:
                return Token.FEQ;
            case Token.GE:
                return Token.FGE;
            case Token.NE:
                return Token.FNE;
            case Token.LT:
                return Token.FLT;
            case Token.GT:
                return Token.FGT;
            case Token.LE:
                return Token.FLE;
            default:
                return op;
        }
    }

}

// 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.
TOP

Related Classes of client.net.sf.saxon.ce.expr.GeneralComparison10

TOP
Copyright © 2018 www.massapi.com. All rights reserved.
All source code are property of their respective owners. Java is a trademark of Sun Microsystems, Inc and owned by ORACLE Inc. Contact coftware#gmail.com.