Class: RDF::XSD

Inherits:
Vocabulary show all
Defined in:
lib/rdf/vocab/xsd.rb

Overview

Vocabulary for www.w3.org/2001/XMLSchema#

Instance Attribute Summary collapse

Method Summary

Methods inherited from Vocabulary

[], #[], __prefix__, __prefix__=, camelize, each, each_statement, enum_for, expand_pname, find, find_term, from_graph, from_sym, imported_from, imports, #initialize, inspect, #inspect, limit_vocabs, list, method_missing, #method_missing, ontology, properties, property, register, strict?, to_iri, to_s, #to_s, to_uri, #to_uri, vocab_map

Constructor Details

This class inherits a constructor from RDF::Vocabulary

Dynamic Method Handling

This class handles dynamic methods through the method_missing method in the class RDF::Vocabulary

Instance Attribute Details

#anyAtomicTypeRDF::Vocabulary::Term (readonly)

anyAtomicType is a special restriction of anySimpleType. The value and lexical spaces of anyAtomicType are the unions of the value and lexical spaces of all the primitive datatypes, and anyAtomicType is their base type.



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# File 'lib/rdf/vocab/xsd.rb', line 50

def anyAtomicType
  @anyAtomicType
end

#anySimpleTypeRDF::Vocabulary::Term (readonly)

The definition of anySimpleType is a special restriction of anyType. The lexical space of anySimpleType is the set of all sequences of Unicode characters, and its value space includes all atomic values and all finite-length lists of zero or more atomic values.



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# File 'lib/rdf/vocab/xsd.rb', line 54

def anySimpleType
  @anySimpleType
end

#anyTypeRDF::Vocabulary::Term (readonly)

The root of the [XML Schema 1.1] datatype heirarchy.



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# File 'lib/rdf/vocab/xsd.rb', line 58

def anyType
  @anyType
end

#anyURIRDF::Vocabulary::Term (readonly)

anyURI represents an Internationalized Resource Identifier Reference (IRI). An anyURI value can be absolute or relative, and may have an optional fragment identifier (i.e., it may be an IRI Reference). This type should be used when the value fulfills the role of an IRI, as defined in [RFC 3987] or its successor(s) in the IETF Standards Track.



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# File 'lib/rdf/vocab/xsd.rb', line 62

def anyURI
  @anyURI
end

#base64BinaryRDF::Vocabulary::Term (readonly)

base64Binary represents arbitrary Base64-encoded binary data. For base64Binary data the entire binary stream is encoded using the Base64 Encoding defined in [RFC 3548], which is derived from the encoding described in [RFC 2045].



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# File 'lib/rdf/vocab/xsd.rb', line 66

def base64Binary
  @base64Binary
end

#booleanRDF::Vocabulary::Term (readonly)

boolean represents the values of two-valued logic.



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# File 'lib/rdf/vocab/xsd.rb', line 70

def boolean
  @boolean
end

#byteRDF::Vocabulary::Term (readonly)

byte is derived from short by setting the value of maxInclusive to be 127 and minInclusive to be -128. The base type of byte is short.



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# File 'lib/rdf/vocab/xsd.rb', line 74

def byte
  @byte
end

#dateRDF::Vocabulary::Term (readonly)

date represents top-open intervals of exactly one day in length on the timelines of dateTime, beginning on the beginning moment of each day, up to but not including the beginning moment of the next day). For non-timezoned values, the top-open intervals disjointly cover the non-timezoned timeline, one per day. For timezoned values, the intervals begin at every minute and therefore overlap.



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# File 'lib/rdf/vocab/xsd.rb', line 78

def date
  @date
end

#dateTimeRDF::Vocabulary::Term (readonly)

dateTime represents instants of time, optionally marked with a particular time zone offset. Values representing the same instant but having different time zone offsets are equal but not identical.



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# File 'lib/rdf/vocab/xsd.rb', line 82

def dateTime
  @dateTime
end

#dateTimeStampRDF::Vocabulary::Term (readonly)

The dateTimeStamp datatype is derived from dateTime by giving the value required to its explicitTimezone facet. The result is that all values of dateTimeStamp are required to have explicit time zone offsets and the datatype is totally ordered.



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# File 'lib/rdf/vocab/xsd.rb', line 86

def dateTimeStamp
  @dateTimeStamp
end

#dayTimeDurationRDF::Vocabulary::Term (readonly)

dayTimeDuration is a datatype derived from duration by restricting its lexical representations to instances of dayTimeDurationLexicalRep. The value space of dayTimeDuration is therefore that of duration restricted to those whose months property is 0. This results in a duration datatype which is totally ordered.



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# File 'lib/rdf/vocab/xsd.rb', line 90

def dayTimeDuration
  @dayTimeDuration
end

#decimalRDF::Vocabulary::Term (readonly)

decimal represents a subset of the real numbers, which can be represented by decimal numerals. The value space of decimal is the set of numbers that can be obtained by dividing an integer by a non-negative power of ten, i.e., expressible as i / 10n where i and n are integers and n ≥ 0. Precision is not reflected in this value space; the number 2.0 is not distinct from the number 2.00. The order relation on decimal is the order relation on real numbers, restricted to this subset.



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# File 'lib/rdf/vocab/xsd.rb', line 94

def decimal
  @decimal
end

#doubleRDF::Vocabulary::Term (readonly)

The double datatype is patterned after the IEEE double-precision 64-bit floating point datatype [IEEE 754-2008]. Each floating point datatype has a value space that is a subset of the rational numbers. Floating point numbers are often used to approximate arbitrary real numbers.



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# File 'lib/rdf/vocab/xsd.rb', line 98

def double
  @double
end

#durationRDF::Vocabulary::Term (readonly)

duration is a datatype that represents durations of time. The concept of duration being captured is drawn from those of [ISO 8601], specifically durations without fixed endpoints. For example, “15 days” (whose most common lexical representation in duration is "'P15D'") is a duration value; “15 days beginning 12 July 1995” and “15 days ending 12 July 1995” are not duration values. duration can provide addition and subtraction operations between duration values and between duration/dateTime value pairs, and can be the result of subtracting dateTime values. However, only addition to dateTime is required for XML Schema processing and is defined in the function dateTimePlusDuration.



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# File 'lib/rdf/vocab/xsd.rb', line 102

def duration
  @duration
end

#ENTITIESRDF::Vocabulary::Term (readonly)

ENTITIES represents the ENTITIES attribute type from [XML]. The value space of ENTITIES is the set of finite, non-zero-length sequences of ENTITY values that have been declared as unparsed entities in a document type definition. The lexical space of ENTITIES is the set of space-separated lists of tokens, of which each token is in the lexical space of ENTITY. The item type of ENTITIES is ENTITY. ENTITIES is derived from anySimpleType in two steps: an anonymous list type is defined, whose item type is ENTITY; this is the base type of ENTITIES, which restricts its value space to lists with at least one item.



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# File 'lib/rdf/vocab/xsd.rb', line 6

def ENTITIES
  @ENTITIES
end

#ENTITYRDF::Vocabulary::Term (readonly)

ENTITY represents the ENTITY attribute type from [XML]. The value space of ENTITY is the set of all strings that match the NCName production in [Namespaces in XML] and have been declared as an unparsed entity in a document type definition. The lexical space of ENTITY is the set of all strings that match the NCName production in [Namespaces in XML]. The base type of ENTITY is NCName.



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# File 'lib/rdf/vocab/xsd.rb', line 10

def ENTITY
  @ENTITY
end

#floatRDF::Vocabulary::Term (readonly)

The float datatype is patterned after the IEEE single-precision 32-bit floating point datatype [IEEE 754-2008]. Its value space is a subset of the rational numbers. Floating point numbers are often used to approximate arbitrary real numbers.



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# File 'lib/rdf/vocab/xsd.rb', line 106

def float
  @float
end

#gDayRDF::Vocabulary::Term (readonly)

gDay represents whole days within an arbitrary month—days that recur at the same point in each (Gregorian) month. This datatype is used to represent a specific day of the month. To indicate, for example, that an employee gets a paycheck on the 15th of each month. (Obviously, days beyond 28 cannot occur in all months; they are nonetheless permitted, up to 31.)



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# File 'lib/rdf/vocab/xsd.rb', line 110

def gDay
  @gDay
end

#gMonthRDF::Vocabulary::Term (readonly)

gMonth represents whole (Gregorian) months within an arbitrary year—months that recur at the same point in each year. It might be used, for example, to say what month annual Thanksgiving celebrations fall in different countries (--11 in the United States, --10 in Canada, and possibly other months in other countries).



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# File 'lib/rdf/vocab/xsd.rb', line 114

def gMonth
  @gMonth
end

#gMonthDayRDF::Vocabulary::Term (readonly)

gMonthDay represents whole calendar days that recur at the same point in each calendar year, or that occur in some arbitrary calendar year. (Obviously, days beyond 28 cannot occur in all Februaries; 29 is nonetheless permitted.)



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# File 'lib/rdf/vocab/xsd.rb', line 118

def gMonthDay
  @gMonthDay
end

#gYearRDF::Vocabulary::Term (readonly)

gYear represents Gregorian calendar years.



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# File 'lib/rdf/vocab/xsd.rb', line 122

def gYear
  @gYear
end

#gYearMonthRDF::Vocabulary::Term (readonly)

gYearMonth represents specific whole Gregorian months in specific Gregorian years.



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# File 'lib/rdf/vocab/xsd.rb', line 126

def gYearMonth
  @gYearMonth
end

#hexBinaryRDF::Vocabulary::Term (readonly)

hexBinary` represents arbitrary hex-encoded binary data.



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# File 'lib/rdf/vocab/xsd.rb', line 130

def hexBinary
  @hexBinary
end

#IDRDF::Vocabulary::Term (readonly)

ID represents the ID attribute type from [XML]. The value space of ID is the set of all strings that match the NCName production in [Namespaces in XML]. The lexical space of ID is the set of all strings that match the NCName production in [Namespaces in XML]. The base type of ID is NCName.



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# File 'lib/rdf/vocab/xsd.rb', line 14

def ID
  @ID
end

#IDREFRDF::Vocabulary::Term (readonly)

IDREF represents the IDREF attribute type from [XML]. The value space of IDREF is the set of all strings that match the NCName production in [Namespaces in XML]. The lexical space of IDREF is the set of strings that match the NCName production in [Namespaces in XML]. The base type of IDREF is NCName.



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# File 'lib/rdf/vocab/xsd.rb', line 18

def IDREF
  @IDREF
end

#IDREFSRDF::Vocabulary::Term (readonly)

IDREFS represents the IDREFS attribute type from [XML]. The value space of IDREFS is the set of finite, non-zero-length sequences of IDREFs. The lexical space of IDREFS is the set of space-separated lists of tokens, of which each token is in the lexical space of IDREF. The item type of IDREFS is IDREF. IDREFS is derived from anySimpleType in two steps: an anonymous list type is defined, whose item type is IDREF; this is the base type of IDREFS, which restricts its value space to lists with at least one item.



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# File 'lib/rdf/vocab/xsd.rb', line 22

def IDREFS
  @IDREFS
end

#intRDF::Vocabulary::Term (readonly)

int is derived from long by setting the value of maxInclusive to be 2147483647 and minInclusive to be -2147483648. The base type of int is long.



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# File 'lib/rdf/vocab/xsd.rb', line 134

def int
  @int
end

#integerRDF::Vocabulary::Term (readonly)

integer is derived from decimal by fixing the value of fractionDigits to be 0 and disallowing the trailing decimal point. This results in the standard mathematical concept of the integer numbers. The value space of integer is the infinite set {...,-2,-1,0,1,2,...}. The base type of integer is decimal.



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# File 'lib/rdf/vocab/xsd.rb', line 138

def integer
  @integer
end

#languageRDF::Vocabulary::Term (readonly)

language represents formal natural language identifiers, as defined by [BCP 47] (currently represented by [RFC 4646] and [RFC 4647]) or its successor(s). The value space and lexical space of language are the set of all strings that conform to the pattern [a-zA-Z]{1,8}(-[a-zA-Z0-9]{1,8})*.



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# File 'lib/rdf/vocab/xsd.rb', line 142

def language
  @language
end

#longRDF::Vocabulary::Term (readonly)

long is derived from integer by setting the value of maxInclusive to be 9223372036854775807 and minInclusive to be -9223372036854775808. The base type of long is integer.



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# File 'lib/rdf/vocab/xsd.rb', line 146

def long
  @long
end

#NameRDF::Vocabulary::Term (readonly)

Name represents XML Names. The value space of Name is the set of all strings which match the Name production of [XML]. The lexical space of Name is the set of all strings which match the Name production of [XML]. The base type of Name is token.



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# File 'lib/rdf/vocab/xsd.rb', line 42

def Name
  @Name
end

#NCNameRDF::Vocabulary::Term (readonly)

NCName represents XML “non-colonized” Names. The value space of NCName is the set of all strings which match the NCName production of [Namespaces in XML]. The lexical space of NCName is the set of all strings which match the NCName production of [Namespaces in XML]. The base type of NCName is Name.



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# File 'lib/rdf/vocab/xsd.rb', line 26

def NCName
  @NCName
end

#negativeIntegerRDF::Vocabulary::Term (readonly)

negativeInteger is derived from nonPositiveInteger by setting the value of maxInclusive to be -1. This results in the standard mathematical concept of the negative integers. The value space of negativeInteger is the infinite set {...,-2,-1}. The base type of negativeInteger is nonPositiveInteger.



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# File 'lib/rdf/vocab/xsd.rb', line 150

def negativeInteger
  @negativeInteger
end

#NMTOKENRDF::Vocabulary::Term (readonly)

NMTOKEN represents the NMTOKEN attribute type from [XML]. The value space of NMTOKEN is the set of tokens that match the Nmtoken production in [XML]. The lexical space of NMTOKEN is the set of strings that match the Nmtoken production in [XML]. The base type of NMTOKEN is token.



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# File 'lib/rdf/vocab/xsd.rb', line 30

def NMTOKEN
  @NMTOKEN
end

#NMTOKENSRDF::Vocabulary::Term (readonly)

NMTOKENS represents the NMTOKENS attribute type from [XML]. The value space of NMTOKENS is the set of finite, non-zero-length sequences of NMTOKENs. The lexical space of NMTOKENS is the set of space-separated lists of tokens, of which each token is in the lexical space of NMTOKEN. The item type of NMTOKENS is NMTOKEN. NMTOKENS is derived from anySimpleType in two steps: an anonymous list type is defined, whose item type is NMTOKEN; this is the base type of NMTOKENS, which restricts its value space to lists with at least one item.



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# File 'lib/rdf/vocab/xsd.rb', line 34

def NMTOKENS
  @NMTOKENS
end

#nonNegativeIntegerRDF::Vocabulary::Term (readonly)

nonNegativeInteger is derived from integer by setting the value of minInclusive to be 0. This results in the standard mathematical concept of the non-negative integers. The value space of nonNegativeInteger is the infinite set {0,1,2,...}. The base type of nonNegativeInteger is integer.



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# File 'lib/rdf/vocab/xsd.rb', line 154

def nonNegativeInteger
  @nonNegativeInteger
end

#nonPositiveIntegerRDF::Vocabulary::Term (readonly)

nonPositiveInteger is derived from integer by setting the value of maxInclusive to be 0. This results in the standard mathematical concept of the non-positive integers. The value space of nonPositiveInteger is the infinite set {...,-2,-1,0}. The base type of nonPositiveInteger is integer.



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# File 'lib/rdf/vocab/xsd.rb', line 158

def nonPositiveInteger
  @nonPositiveInteger
end

#normalizedStringRDF::Vocabulary::Term (readonly)

normalizedString represents white space normalized strings. The value space of normalizedString is the set of strings that do not contain the carriage return (#xD), line feed (#xA) nor tab (#x9) characters. The lexical space of normalizedString is the set of strings that do not contain the carriage return (#xD), line feed (#xA) nor tab (#x9) characters. The base type of normalizedString is string.



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# File 'lib/rdf/vocab/xsd.rb', line 162

def normalizedString
  @normalizedString
end

#NOTATIONRDF::Vocabulary::Term (readonly)

NOTATION represents the NOTATION attribute type from [XML]. The value space of NOTATION is the set of QNames of notations declared in the current schema. The lexical space of NOTATION is the set of all names of notations declared in the current schema (in the form of QNames).



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# File 'lib/rdf/vocab/xsd.rb', line 38

def NOTATION
  @NOTATION
end

#positiveIntegerRDF::Vocabulary::Term (readonly)

positiveInteger is derived from nonNegativeInteger by setting the value of minInclusive to be 1. This results in the standard mathematical concept of the positive integer numbers. The value space of positiveInteger is the infinite set {1,2,...}. The base type of positiveInteger is nonNegativeInteger.



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# File 'lib/rdf/vocab/xsd.rb', line 166

def positiveInteger
  @positiveInteger
end

#QNameRDF::Vocabulary::Term (readonly)

QName represents XML qualified names. The value space of QName is the set of tuples {namespace name, local part}, where namespace name is an anyURI and local part is an NCName. The lexical space of QName is the set of strings that match the QName production of [Namespaces in XML].



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# File 'lib/rdf/vocab/xsd.rb', line 46

def QName
  @QName
end

#shortRDF::Vocabulary::Term (readonly)

short is derived from int by setting the value of maxInclusive to be 32767 and minInclusive to be -32768. The base type of short is int.



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# File 'lib/rdf/vocab/xsd.rb', line 170

def short
  @short
end

#stringRDF::Vocabulary::Term (readonly)

The string datatype represents character strings in XML.



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# File 'lib/rdf/vocab/xsd.rb', line 174

def string
  @string
end

#timeRDF::Vocabulary::Term (readonly)

time represents instants of time that recur at the same point in each calendar day, or that occur in some arbitrary calendar day.



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# File 'lib/rdf/vocab/xsd.rb', line 178

def time
  @time
end

#tokenRDF::Vocabulary::Term (readonly)

token represents tokenized strings. The value space of token is the set of strings that do not contain the carriage return (#xD), line feed (#xA) nor tab (#x9) characters, that have no leading or trailing spaces (#x20) and that have no internal sequences of two or more spaces. The lexical space of token is the set of strings that do not contain the carriage return (#xD), line feed (#xA) nor tab (#x9) characters, that have no leading or trailing spaces (#x20) and that have no internal sequences of two or more spaces. The base type of token is normalizedString.



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# File 'lib/rdf/vocab/xsd.rb', line 182

def token
  @token
end

#unsignedByteRDF::Vocabulary::Term (readonly)

unsignedByte is derived from unsignedShort by setting the value of maxInclusive to be 255. The base type of unsignedByte is unsignedShort.



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# File 'lib/rdf/vocab/xsd.rb', line 186

def unsignedByte
  @unsignedByte
end

#unsignedIntRDF::Vocabulary::Term (readonly)

unsignedInt is derived from unsignedLong by setting the value of maxInclusive to be 4294967295. The base type of unsignedInt is unsignedLong.



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# File 'lib/rdf/vocab/xsd.rb', line 190

def unsignedInt
  @unsignedInt
end

#unsignedLongRDF::Vocabulary::Term (readonly)

unsignedLong is derived from nonNegativeInteger by setting the value of maxInclusive to be 18446744073709551615. The base type of unsignedLong is nonNegativeInteger.



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# File 'lib/rdf/vocab/xsd.rb', line 194

def unsignedLong
  @unsignedLong
end

#unsignedShortRDF::Vocabulary::Term (readonly)

unsignedShort is derived from unsignedInt by setting the value of maxInclusive to be 65535. The base type of unsignedShort is unsignedInt.



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# File 'lib/rdf/vocab/xsd.rb', line 198

def unsignedShort
  @unsignedShort
end

#yearMonthDurationRDF::Vocabulary::Term (readonly)

yearMonthDuration is a datatype derived from duration by restricting its lexical representations to instances of yearMonthDurationLexicalRep. The value space of yearMonthDuration is therefore that of duration restricted to those whose seconds property is 0. This results in a duration datatype which is totally ordered.



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# File 'lib/rdf/vocab/xsd.rb', line 202

def yearMonthDuration
  @yearMonthDuration
end