net.sf.saxon.type
Class AnySimpleType

java.lang.Object
  extended by net.sf.saxon.type.AnySimpleType
All Implemented Interfaces:
Serializable, SchemaComponent, SchemaType, SimpleType

public final class AnySimpleType
extends Object
implements SimpleType

This class has a singleton instance which represents the XML Schema built-in type xs:anySimpleType

See Also:
Serialized Form

Field Summary
 
Fields inherited from interface net.sf.saxon.type.SimpleType
VARIETY_ATOMIC, VARIETY_LIST, VARIETY_UNION, VARIETY_UNSPECIFIED_SIMPLE
 
Fields inherited from interface net.sf.saxon.type.SchemaType
DERIVATION_EXTENSION, DERIVATION_LIST, DERIVATION_RESTRICTION, DERIVATION_UNION, DERIVE_BY_SUBSTITUTION
 
Fields inherited from interface net.sf.saxon.type.SchemaComponent
FIXED_UP, INCOMPLETE, INVALID, UNVALIDATED, VALIDATED, VALIDATING
 
Method Summary
 boolean allowsDerivation(int derivation)
          Determines whether derivation (of a particular kind) from this type is allowed, based on the "final" property
 void analyzeContentExpression(Expression expression, int kind, StaticContext env)
          Analyze an expression to see whether the expression is capable of delivering a value of this type.
 Value atomize(NodeInfo node)
          Get the typed value of a node that is annotated with this schema type.
 void checkTypeDerivationIsOK(SchemaType type, int block)
          Check that this type is validly derived from a given type
 SchemaType getBaseType()
          Get the base type
 int getBlock()
          Returns the value of the 'block' attribute for this type, as a bit-signnificant integer with fields such as SchemaType.DERIVATION_LIST and SchemaType.DERIVATION_EXTENSION
 SchemaType getBuiltInBaseType()
          Get the built-in ancestor of this type in the type hierarchy
 AtomicType getCommonAtomicType()
          Get the most specific possible atomic type that all items in this SimpleType belong to
 int getDerivationMethod()
          Gets the integer code of the derivation method used to derive this type from its parent.
 String getDescription()
          Get a description of this type for use in diagnostics
 String getDisplayName()
          Get the display name of the type: that is, a lexical QName with an arbitrary prefix
 int getFingerprint()
          Get the fingerprint of the name of this type
static AnySimpleType getInstance()
          Get the singular instance of this class
 SchemaType getKnownBaseType()
          Returns the base type that this type inherits from.
 String getName()
          Get the local name of this type
 int getNameCode()
          Get the namecode of the name of this type.
 int getRedefinitionLevel()
          Get the redefinition level.
 String getSystemId()
          Get the URI of the schema document containing the definition of this type
 String getTargetNamespace()
          Get the target namespace of this type
 SequenceIterator getTypedValue(CharSequence value, NamespaceResolver resolver, ConversionRules rules)
          Get the typed value corresponding to a given string value, assuming it is valid against this type
 SequenceIterator getTypedValue(NodeInfo node)
          Get the typed value of a node that is annotated with this schema type.
 int getValidationStatus()
          Get the validation status - always valid
 int getWhitespaceAction()
          Determine how values of this simple type are whitespace-normalized.
 boolean isAnonymousType()
          Test whether this is an anonymous type
 boolean isAtomicType()
          Test whether this Simple Type is an atomic type
 boolean isBuiltInType()
          Determine whether this is a built-in type or a user-defined type
 boolean isComplexType()
          Test whether this SchemaType is a complex type
 boolean isExternalType()
          Return true if this is an external object type, that is, a Saxon-defined type for external Java or .NET objects
 boolean isIdRefType()
          Ask whether this type is an IDREF or IDREFS type.
 boolean isIdType()
          Ask whether this type is an ID type.
 boolean isListType()
          Determine whether this is a list type
 boolean isNamespaceSensitive()
          Test whether this type represents namespace-sensitive content
 boolean isSameType(SchemaType other)
          Test whether this is the same type as another type.
 boolean isSimpleType()
          Test whether this SchemaType is a simple type
 boolean isUnionType()
          Determin whether this is a union type
 CharSequence postprocess(CharSequence input)
          Reverse any pre-lexical facets, other than whitespace.
 CharSequence preprocess(CharSequence input)
          Apply any pre-lexical facets, other than whitespace.
 ValidationFailure validateContent(CharSequence value, NamespaceResolver nsResolver, ConversionRules rules)
          Check whether a given input string is valid according to this SimpleType
 
Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
 

Method Detail

getName

public String getName()
Get the local name of this type

Specified by:
getName in interface SchemaType
Returns:
the local name of this type definition, if it has one. Return null in the case of an anonymous type.

getTargetNamespace

public String getTargetNamespace()
Get the target namespace of this type

Specified by:
getTargetNamespace in interface SchemaType
Returns:
the target namespace of this type definition, if it has one. Return null in the case of an anonymous type, and in the case of a global type defined in a no-namespace schema.

isExternalType

public boolean isExternalType()
Return true if this is an external object type, that is, a Saxon-defined type for external Java or .NET objects

Specified by:
isExternalType in interface SimpleType
Returns:
true if this is an external type

isBuiltInType

public boolean isBuiltInType()
Determine whether this is a built-in type or a user-defined type

Specified by:
isBuiltInType in interface SimpleType
Returns:
true if this is a built-in type

isIdType

public boolean isIdType()
Ask whether this type is an ID type. This is defined to be any simple type who typed value may contain atomic values of type xs:ID: that is, it includes types derived from ID by restriction, list, or union. Note that for a node to be treated as an ID, its typed value must be a *single* atomic value of type ID; the type of the node, however, can still allow a list.

Specified by:
isIdType in interface SchemaType

isIdRefType

public boolean isIdRefType()
Ask whether this type is an IDREF or IDREFS type. This is defined to be any simple type who typed value may contain atomic values of type xs:IDREF: that is, it includes types derived from IDREF or IDREFS by restriction, list, or union

Specified by:
isIdRefType in interface SchemaType

getRedefinitionLevel

public int getRedefinitionLevel()
Get the redefinition level. This is zero for a component that has not been redefined; for a redefinition of a level-0 component, it is 1; for a redefinition of a level-N component, it is N+1. This concept is used to support the notion of "pervasive" redefinition: if a component is redefined at several levels, the top level wins, but it is an error to have two versions of the component at the same redefinition level.

Specified by:
getRedefinitionLevel in interface SchemaComponent
Returns:
the redefinition level

getSystemId

public String getSystemId()
Get the URI of the schema document containing the definition of this type

Specified by:
getSystemId in interface SchemaType
Returns:
null for a built-in type

getCommonAtomicType

public AtomicType getCommonAtomicType()
Get the most specific possible atomic type that all items in this SimpleType belong to

Specified by:
getCommonAtomicType in interface SimpleType
Returns:
the lowest common supertype of all member types

getInstance

public static AnySimpleType getInstance()
Get the singular instance of this class

Returns:
the singular object representing xs:anyType

getValidationStatus

public int getValidationStatus()
Get the validation status - always valid

Specified by:
getValidationStatus in interface SchemaComponent
Returns:
one of the values SchemaComponent.UNVALIDATED, SchemaComponent.VALIDATING, SchemaComponent.VALIDATED, SchemaComponent.INVALID, SchemaComponent.INCOMPLETE

getBaseType

public SchemaType getBaseType()
Get the base type

Specified by:
getBaseType in interface SchemaType
Returns:
AnyType

getKnownBaseType

public SchemaType getKnownBaseType()
                            throws IllegalStateException
Returns the base type that this type inherits from. This method can be used to get the base type of a type that is known to be valid.

Returns:
the base type.
Throws:
IllegalStateException

isComplexType

public boolean isComplexType()
Test whether this SchemaType is a complex type

Specified by:
isComplexType in interface SchemaType
Returns:
true if this SchemaType is a complex type

isSimpleType

public boolean isSimpleType()
Test whether this SchemaType is a simple type

Specified by:
isSimpleType in interface SchemaType
Returns:
true if this SchemaType is a simple type

getFingerprint

public int getFingerprint()
Get the fingerprint of the name of this type

Specified by:
getFingerprint in interface SchemaType
Returns:
the fingerprint.

getNameCode

public int getNameCode()
Get the namecode of the name of this type. This includes the prefix from the original type declaration: in the case of built-in types, there may be a conventional prefix or there may be no prefix.

Specified by:
getNameCode in interface SchemaType
Returns:
the namecode. Returns an invented namecode for an anonymous type.

getDescription

public String getDescription()
Get a description of this type for use in diagnostics

Specified by:
getDescription in interface SchemaType
Returns:
the string "xs:anyType"

getDisplayName

public String getDisplayName()
Get the display name of the type: that is, a lexical QName with an arbitrary prefix

Specified by:
getDisplayName in interface SchemaType
Returns:
a lexical QName identifying the type

isSameType

public boolean isSameType(SchemaType other)
Test whether this is the same type as another type. They are considered to be the same type if they are derived from the same type definition in the original XML representation (which can happen when there are multiple includes of the same file)

Specified by:
isSameType in interface SchemaType
Parameters:
other - the other type
Returns:
true if this is the same type as other

getTypedValue

public SequenceIterator getTypedValue(NodeInfo node)
Get the typed value of a node that is annotated with this schema type. This shouldn't happen: nodes are never annotated as xs:anySimpleType; but if it does happen, we treat it as if it were untypedAtomic.

Specified by:
getTypedValue in interface SchemaType
Parameters:
node - the node whose typed value is required
Returns:
an iterator returning a single untyped atomic value, equivalent to the string value of the node.

atomize

public Value atomize(NodeInfo node)
Get the typed value of a node that is annotated with this schema type. The result of this method will always be consistent with the method getTypedValue(net.sf.saxon.om.NodeInfo). However, this method is often more convenient and may be more efficient, especially in the common case where the value is expected to be a singleton.

Specified by:
atomize in interface SchemaType
Parameters:
node - the node whose typed value is required
Returns:
the typed value.
Since:
8.5

checkTypeDerivationIsOK

public void checkTypeDerivationIsOK(SchemaType type,
                                    int block)
                             throws SchemaException
Check that this type is validly derived from a given type

Specified by:
checkTypeDerivationIsOK in interface SchemaType
Parameters:
type - the type from which this type is derived
block - the derivations that are blocked by the relevant element declaration
Throws:
SchemaException - if the derivation is not allowed

isAtomicType

public boolean isAtomicType()
Test whether this Simple Type is an atomic type

Specified by:
isAtomicType in interface SchemaType
Specified by:
isAtomicType in interface SimpleType
Returns:
false, this is not (necessarily) an atomic type

isAnonymousType

public boolean isAnonymousType()
Description copied from interface: SchemaType
Test whether this is an anonymous type

Specified by:
isAnonymousType in interface SchemaType
Returns:
true if this SchemaType is an anonymous type

isListType

public boolean isListType()
Determine whether this is a list type

Specified by:
isListType in interface SimpleType
Returns:
false (it isn't a list type)

isUnionType

public boolean isUnionType()
Determin whether this is a union type

Specified by:
isUnionType in interface SimpleType
Returns:
false (it isn't a union type)

getBuiltInBaseType

public SchemaType getBuiltInBaseType()
Get the built-in ancestor of this type in the type hierarchy

Specified by:
getBuiltInBaseType in interface SimpleType
Returns:
this type itself

getTypedValue

public SequenceIterator getTypedValue(CharSequence value,
                                      NamespaceResolver resolver,
                                      ConversionRules rules)
Get the typed value corresponding to a given string value, assuming it is valid against this type

Specified by:
getTypedValue in interface SimpleType
Parameters:
value - the string value
resolver - a namespace resolver used to resolve any namespace prefixes appearing in the content of values. Can supply null, in which case any namespace-sensitive content will be rejected.
rules -
Returns:
an iterator over the atomic sequence comprising the typed value. The objects returned by this SequenceIterator will all be of type AtomicValue

validateContent

public ValidationFailure validateContent(CharSequence value,
                                         NamespaceResolver nsResolver,
                                         ConversionRules rules)
Check whether a given input string is valid according to this SimpleType

Specified by:
validateContent in interface SimpleType
Parameters:
value - the input string to be checked
nsResolver - a namespace resolver used to resolve namespace prefixes if the type is namespace sensitive. The value supplied may be null; in this case any namespace-sensitive content will throw an UnsupportedOperationException.
rules -
Returns:
null if validation succeeds (which it always does for this implementation)
Throws:
UnsupportedOperationException - if the type is namespace-sensitive and no namespace resolver is supplied

isNamespaceSensitive

public boolean isNamespaceSensitive()
Test whether this type represents namespace-sensitive content

Specified by:
isNamespaceSensitive in interface SimpleType
Returns:
false

getBlock

public int getBlock()
Returns the value of the 'block' attribute for this type, as a bit-signnificant integer with fields such as SchemaType.DERIVATION_LIST and SchemaType.DERIVATION_EXTENSION

Specified by:
getBlock in interface SchemaType
Returns:
the value of the 'block' attribute for this type

getDerivationMethod

public int getDerivationMethod()
Gets the integer code of the derivation method used to derive this type from its parent. Returns zero for primitive types.

Specified by:
getDerivationMethod in interface SchemaType
Returns:
a numeric code representing the derivation method, for example SchemaType.DERIVATION_RESTRICTION

allowsDerivation

public boolean allowsDerivation(int derivation)
Determines whether derivation (of a particular kind) from this type is allowed, based on the "final" property

Specified by:
allowsDerivation in interface SchemaType
Parameters:
derivation - the kind of derivation, for example SchemaType.DERIVATION_LIST
Returns:
true if this kind of derivation is allowed

getWhitespaceAction

public int getWhitespaceAction()
Determine how values of this simple type are whitespace-normalized.

Specified by:
getWhitespaceAction in interface SimpleType
Returns:
one of Whitespace.PRESERVE, Whitespace.COLLAPSE, Whitespace.REPLACE.

analyzeContentExpression

public void analyzeContentExpression(Expression expression,
                                     int kind,
                                     StaticContext env)
Analyze an expression to see whether the expression is capable of delivering a value of this type.

Specified by:
analyzeContentExpression in interface SchemaType
Parameters:
expression - the expression that delivers the content
kind - the node kind whose content is being delivered: Type.ELEMENT, Type.ATTRIBUTE, or Type.DOCUMENT
env -

preprocess

public CharSequence preprocess(CharSequence input)
Apply any pre-lexical facets, other than whitespace. At the moment the only such facet is saxon:preprocess

Specified by:
preprocess in interface SimpleType
Parameters:
input - the value to be preprocessed
Returns:
the value after preprocessing

postprocess

public CharSequence postprocess(CharSequence input)
                         throws ValidationException
Reverse any pre-lexical facets, other than whitespace. At the moment the only such facet is saxon:preprocess. This is called when converting a value of this type to a string

Specified by:
postprocess in interface SimpleType
Parameters:
input - the value to be postprocessed: this is the "ordinary" result of converting the value to a string
Returns:
the value after postprocessing
Throws:
ValidationException


Copyright (c) 2004-2010 Saxonica Limited. All rights reserved.