net.sf.saxon.sort
Interface AtomicComparer

All Superinterfaces:
Serializable
All Known Implementing Classes:
AtomicSortComparer, CalendarValueComparer, CodepointCollatingComparer, CollatingAtomicComparer, ComparableAtomicValueComparer, DecimalSortComparer, DescendingComparer, DoubleSortComparer, EmptyGreatestComparer, EqualityComparer, GenericAtomicComparer, NumericComparer, TextComparer

public interface AtomicComparer
extends Serializable

Interface representing an object that can be used to compare two XPath atomic values for equality or for ordering.


Method Summary
 int compareAtomicValues(AtomicValue a, AtomicValue b)
          Compare two AtomicValue objects according to the rules for their data type.
 boolean comparesEqual(AtomicValue a, AtomicValue b)
          Compare two AtomicValue objects for equality according to the rules for their data type.
 ComparisonKey getComparisonKey(AtomicValue a)
          Get a comparison key for an object.
 AtomicComparer provideContext(XPathContext context)
          Supply the dynamic context in case this is needed for the comparison
 

Method Detail

provideContext

AtomicComparer provideContext(XPathContext context)
Supply the dynamic context in case this is needed for the comparison

Parameters:
context - the dynamic evaluation context
Returns:
either the original AtomicComparer, or a new AtomicComparer in which the context is known. The original AtomicComparer is not modified

compareAtomicValues

int compareAtomicValues(AtomicValue a,
                        AtomicValue b)
                        throws NoDynamicContextException
Compare two AtomicValue objects according to the rules for their data type. UntypedAtomic values are compared as if they were strings; if different semantics are wanted, the conversion must be done by the caller.

Parameters:
a - the first object to be compared. It is intended that this should be an instance of AtomicValue, though this restriction is not enforced. If it is a StringValue, the collator is used to compare the values, otherwise the value must implement the java.util.Comparable interface.
b - the second object to be compared. This must be comparable with the first object: for example, if one is a string, they must both be strings.
Returns:
<0 if a0 if a>b
Throws:
ClassCastException - if the objects are not comparable
NoDynamicContextException - if this comparer required access to dynamic context information, notably the implicit timezone, and this information is not available. In general this happens if a context-dependent comparison is attempted at compile-time, and it signals the compiler to generate code that tries again at run-time.

comparesEqual

boolean comparesEqual(AtomicValue a,
                      AtomicValue b)
                      throws NoDynamicContextException
Compare two AtomicValue objects for equality according to the rules for their data type. UntypedAtomic values are compared by converting to the type of the other operand.

Parameters:
a - the first object to be compared.
b - the second object to be compared.
Returns:
true if the values are equal, false if not
Throws:
ClassCastException - if the objects are not comparable
NoDynamicContextException

getComparisonKey

ComparisonKey getComparisonKey(AtomicValue a)
                               throws NoDynamicContextException
Get a comparison key for an object. This must satisfy the rule that if two objects are equal according to the XPath eq operator, then their comparison keys are equal according to the Java equals() method, and vice versa. There is no requirement that the comparison keys should reflect the ordering of the underlying objects.

Throws:
NoDynamicContextException


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