Package net.sf.saxon.pattern
Class GeneralPositionalPattern
- java.lang.Object
-
- net.sf.saxon.expr.Expression
-
- net.sf.saxon.expr.PseudoExpression
-
- net.sf.saxon.pattern.Pattern
-
- net.sf.saxon.pattern.GeneralPositionalPattern
-
- All Implemented Interfaces:
ExportAgent
,Locatable
,IdentityComparable
,Traceable
public class GeneralPositionalPattern extends Pattern
A GeneralPositionalPattern is a pattern of the form A[P] where A is an axis expression using the child axis and P is an expression that depends on the position.This class handles cases where the predicate P is arbitrarily complex. Simple comparisons of position() against an integer value are handled by the class SimplePositionalPattern.
-
-
Field Summary
-
Fields inherited from class net.sf.saxon.expr.Expression
EFFECTIVE_BOOLEAN_VALUE, EVALUATE_METHOD, ITEM_FEED_METHOD, ITERATE_METHOD, MAX_COST, MAX_SEQUENCE_LENGTH, MAX_STRING_LENGTH, PROCESS_METHOD, staticProperties, UNBOUNDED_LOWER, UNBOUNDED_UPPER, UPDATE_METHOD, WATCH_METHOD
-
-
Constructor Summary
Constructors Constructor Description GeneralPositionalPattern(NodeTest base, Expression positionExpr)
Create a GeneralPositionalPattern
-
Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description int
allocateSlots(SlotManager slotManager, int nextFree)
Allocate slots to any variables used within the patternprotected int
computeHashCode()
hashcode supporting equals()Pattern
copy(RebindingMap rebindings)
Copy a pattern.boolean
equals(java.lang.Object other)
Determine whether this pattern is the same as another patternvoid
export(ExpressionPresenter presenter)
Diagnostic print of expression structure.int
getDependencies()
Get the dependencies of the pattern.int
getFingerprint()
Determine the fingerprint of nodes to which this pattern applies.ItemType
getItemType()
Get an ItemType that all the nodes matching this pattern must satisfyNodeTest
getNodeTest()
Get the base patternExpression
getPositionExpr()
Get the filter assocated with the patternUType
getUType()
Get a UType indicating which kinds of items this Pattern can match.boolean
isMotionless()
Test whether a pattern is motionless, that is, whether it can be evaluated against a node without repositioning the input stream.boolean
matches(Item item, XPathContext context)
Determine whether the pattern matches a given item.boolean
matchesBeneathAnchor(NodeInfo node, NodeInfo anchor, XPathContext context)
Determine whether this pattern matches a given Node within the subtree rooted at a given anchor node.java.lang.Iterable<Operand>
operands()
Get the immediate sub-expressions of this expression, with information about the relationship of each expression to its parent expression.Pattern
optimize(ExpressionVisitor visitor, ContextItemStaticInfo contextInfo)
Perform optimisation of an expression and its subexpressions.java.lang.String
reconstruct()
Get a string representation of the pattern.void
setUsesPosition(boolean usesPosition)
Pattern
simplify()
Simplify the pattern: perform any context-independent optimisationsPattern
typeCheck(ExpressionVisitor visitor, ContextItemStaticInfo contextItemType)
Type-check the pattern, performing any type-dependent optimizations.-
Methods inherited from class net.sf.saxon.pattern.Pattern
bindCurrent, convertToTypedPattern, effectiveBooleanValue, getDefaultPriority, getHostLanguage, getOriginalText, handleDynamicError, isLiftable, isRecoverable, make, matchesCurrentGroup, patternContainsVariable, replaceCurrent, selectNodes, setOriginalText, setPriority, setRecoverable, toPattern, toShortString, toString
-
Methods inherited from class net.sf.saxon.expr.PseudoExpression
computeCardinality, evaluateAsString, evaluateItem, getImplementationMethod, iterate, process
-
Methods inherited from class net.sf.saxon.expr.Expression
addToPathMap, adoptChildExpression, allowExtractingCommonSubexpressions, checkedOperands, checkForUpdatingSubexpressions, checkPermittedContents, computeDependencies, computeSpecialProperties, computeStaticProperties, dynamicError, evaluatePendingUpdates, explain, getCardinality, getConfiguration, getCost, getEvaluationMethod, getExpressionName, getExtraProperty, getIntegerBounds, getInterpretedExpression, getIntrinsicDependencies, getLocalRetainedStaticContext, getLocation, getNetCost, getObjectName, getPackageData, getParentExpression, getProperties, getProperty, getRetainedStaticContext, getScopingExpression, getSlotsUsed, getSpecialProperties, getStaticBaseURI, getStaticBaseURIString, getStaticType, getStaticUType, getStreamerName, getTracingTag, hasCompatibleStaticContext, hashCode, hasSpecialProperty, hasVariableBinding, identityHashCode, implementsStaticTypeCheck, isCallOn, isEqual, isIdentical, isInstruction, isMultiThreaded, isStaticPropertiesKnown, isSubtreeExpression, isUpdatingExpression, isVacuousExpression, markTailFunctionCalls, operandList, operandSparseList, optimizeChildren, prepareForStreaming, resetLocalStaticProperties, restoreParentPointers, setEvaluationMethod, setExtraProperty, setFiltered, setFlattened, setLocation, setParentExpression, setRetainedStaticContext, setRetainedStaticContextLocally, setRetainedStaticContextThoroughly, setStaticProperty, simplifyChildren, staticTypeCheck, suppressValidation, typeCheckChildren, typeError, unordered, verifyParentPointers
-
Methods inherited from class java.lang.Object
clone, finalize, getClass, notify, notifyAll, wait, wait, wait
-
Methods inherited from interface net.sf.saxon.trace.Traceable
gatherProperties
-
-
-
-
Constructor Detail
-
GeneralPositionalPattern
public GeneralPositionalPattern(NodeTest base, Expression positionExpr)
Create a GeneralPositionalPattern- Parameters:
base
- the base expression (to be matched independently of position)positionExpr
- the positional filter which matches only if the position of the node is correct
-
-
Method Detail
-
operands
public java.lang.Iterable<Operand> operands()
Get the immediate sub-expressions of this expression, with information about the relationship of each expression to its parent expression. Default implementation works off the results of iterateSubExpressions()If the expression is a Callable, then it is required that the order of the operands returned by this function is the same as the order of arguments supplied to the corresponding call() method.
- Overrides:
operands
in classExpression
- Returns:
- an iterator containing the sub-expressions of this expression
-
getPositionExpr
public Expression getPositionExpr()
Get the filter assocated with the pattern- Returns:
- the filter predicate
-
getNodeTest
public NodeTest getNodeTest()
Get the base pattern- Returns:
- the base pattern before filtering
-
setUsesPosition
public void setUsesPosition(boolean usesPosition)
-
simplify
public Pattern simplify() throws XPathException
Simplify the pattern: perform any context-independent optimisations- Overrides:
simplify
in classPattern
- Returns:
- the simplified expression (or the original if unchanged, or if modified in-situ)
- Throws:
XPathException
- if an error is discovered during expression rewriting
-
typeCheck
public Pattern typeCheck(ExpressionVisitor visitor, ContextItemStaticInfo contextItemType) throws XPathException
Type-check the pattern, performing any type-dependent optimizations.- Overrides:
typeCheck
in classPattern
- Parameters:
visitor
- an expression visitorcontextItemType
- the type of the context item at the point where the pattern appears- Returns:
- the optimised Pattern
- Throws:
XPathException
- if an error is discovered during this phase (typically a type error)
-
optimize
public Pattern optimize(ExpressionVisitor visitor, ContextItemStaticInfo contextInfo) throws XPathException
Perform optimisation of an expression and its subexpressions. This is the third and final phase of static optimization.This method is called after all references to functions and variables have been resolved to the declaration of the function or variable, and after all type checking has been done.
- Overrides:
optimize
in classPattern
- Parameters:
visitor
- an expression visitorcontextInfo
- the static type of "." at the point where this expression is invoked. The parameter is set to null if it is known statically that the context item will be undefined. If the type of the context item is not known statically, the argument is set toType.ITEM_TYPE
- Returns:
- the original expression, rewritten if appropriate to optimize execution
- Throws:
XPathException
- if an error is discovered during this phase (typically a type error)
-
getDependencies
public int getDependencies()
Get the dependencies of the pattern. The only interesting dependencies for a pattern are dependencies on local variables or on user-defined functions. These are analyzed in those patterns containing predicates.- Overrides:
getDependencies
in classPattern
- Returns:
- the dependencies, as a bit-significant mask
-
allocateSlots
public int allocateSlots(SlotManager slotManager, int nextFree)
Allocate slots to any variables used within the pattern- Overrides:
allocateSlots
in classPattern
- Parameters:
slotManager
- manages allocation of slots in a stack framenextFree
- the next slot that is free to be allocated @return the next slot that is free to be allocated- Returns:
- the next slot that is free to be allocated
-
matches
public boolean matches(Item item, XPathContext context) throws XPathException
Determine whether the pattern matches a given item.- Specified by:
matches
in classPattern
- Parameters:
item
- the item to be testedcontext
- The dynamic context.- Returns:
- true if the pattern matches, else false
- Throws:
XPathException
- if an error occurs while matching the pattern (the caller will usually treat this the same as a false result)
-
matchesBeneathAnchor
public boolean matchesBeneathAnchor(NodeInfo node, NodeInfo anchor, XPathContext context) throws XPathException
Determine whether this pattern matches a given Node within the subtree rooted at a given anchor node. This method is used when the pattern is used for streaming.- Overrides:
matchesBeneathAnchor
in classPattern
- Parameters:
node
- The NodeInfo representing the Element or other node to be tested against the Patternanchor
- The anchor node, which must match any AnchorPattern subpatterncontext
- The dynamic context. Only relevant if the pattern uses variables, or contains calls on functions such as document() or key().- Returns:
- true if the node matches the Pattern, false otherwise
- Throws:
XPathException
- if an error occurs while matching the pattern (the caller will usually treat this the same as a false result)
-
getUType
public UType getUType()
Get a UType indicating which kinds of items this Pattern can match.
-
getFingerprint
public int getFingerprint()
Determine the fingerprint of nodes to which this pattern applies. Used for optimisation.- Overrides:
getFingerprint
in classPattern
- Returns:
- the fingerprint of nodes matched by this pattern.
-
getItemType
public ItemType getItemType()
Get an ItemType that all the nodes matching this pattern must satisfy- Specified by:
getItemType
in classPattern
- Returns:
- an ItemType, as specific as possible, which all the matching items satisfy
-
equals
public boolean equals(java.lang.Object other)
Determine whether this pattern is the same as another pattern- Overrides:
equals
in classExpression
- Parameters:
other
- the other object- Returns:
- true if the other operand is an expression and if it can be determined that the two expressions are equivalent, in the sense that they will always return the same result.
-
computeHashCode
protected int computeHashCode()
hashcode supporting equals()- Overrides:
computeHashCode
in classExpression
- Returns:
- a computed hash code
-
isMotionless
public boolean isMotionless()
Test whether a pattern is motionless, that is, whether it can be evaluated against a node without repositioning the input stream. This is a necessary condition for patterns used as the match pattern of a streamed template rule.- Overrides:
isMotionless
in classPattern
- Returns:
- true if the pattern is motionless, that is, if it can be evaluated against a streamed node without changing the position in the streamed input file
-
copy
public Pattern copy(RebindingMap rebindings)
Copy a pattern. This makes a deep copy.
-
reconstruct
public java.lang.String reconstruct()
Get a string representation of the pattern. This will be in a form similar to the original pattern text, but not necessarily identical. It is not guaranteed to be in legal pattern syntax.- Overrides:
reconstruct
in classPattern
-
export
public void export(ExpressionPresenter presenter) throws XPathException
Description copied from class:Expression
Diagnostic print of expression structure. The abstract expression tree is written to the supplied output destination.- Specified by:
export
in interfaceExportAgent
- Specified by:
export
in classPattern
- Parameters:
presenter
- the expression presenter used to display the structure- Throws:
XPathException
- if the export fails, for example if an expression is found that won't work in the target environment.
-
-