"""
SPARQL 1.1 Parser
based on pyparsing
"""
import sys
import re
from pyparsing import (
Literal, Regex, Optional, OneOrMore, ZeroOrMore, Forward,
ParseException, Suppress, Combine, restOfLine, Group,
ParseResults, delimitedList)
from pyparsing import CaselessKeyword as Keyword # watch out :)
# from pyparsing import Keyword as CaseSensitiveKeyword
from parserutils import Comp, Param, ParamList
from . import operators as op
from rdflib.py3compat import decodeUnicodeEscape, bytestype
import rdflib
DEBUG = False
# ---------------- ACTIONS
[docs]def neg(literal):
return rdflib.Literal(-literal, datatype=literal.datatype)
[docs]def setLanguage(terms):
return rdflib.Literal(terms[0], lang=terms[1])
[docs]def setDataType(terms):
return rdflib.Literal(terms[0], datatype=terms[1])
[docs]def expandTriples(terms):
"""
Expand ; and , syntax for repeat predicates, subjects
"""
# import pdb; pdb.set_trace()
try:
res = []
if DEBUG:
print "Terms", terms
l = len(terms)
for i, t in enumerate(terms):
if t == ',':
res.extend([res[-3], res[-2]])
elif t == ';':
if i+1 == len(terms) or terms[i+1] == ";" or terms[i+1] == ".":
continue # this semicolon is spurious
res.append(res[-3])
elif isinstance(t, list):
# BlankNodePropertyList
# is this bnode the object of previous triples?
if (len(res) % 3) == 2:
res.append(t[0])
# is this a single [] ?
if len(t) > 1:
res += t
# is this bnode the subject of more triples?
if i + 1 < l and terms[i + 1] not in ".,;" :
res.append(t[0])
elif isinstance(t, ParseResults):
res += t.asList()
elif t != '.':
res.append(t)
if DEBUG:
print len(res), t
if DEBUG:
import json
print json.dumps(res, indent=2)
return res
# print res
# assert len(res)%3 == 0, \
# "Length of triple-list is not divisible by 3: %d!"%len(res)
# return [tuple(res[i:i+3]) for i in range(len(res)/3)]
except:
if DEBUG:
import traceback
traceback.print_exc()
raise
[docs]def expandBNodeTriples(terms):
"""
expand [ ?p ?o ] syntax for implicit bnodes
"""
# import pdb; pdb.set_trace()
try:
if DEBUG:
print "Bnode terms", terms
print "1", terms[0]
print "2", [rdflib.BNode()] + terms.asList()[0]
return [expandTriples([rdflib.BNode()] + terms.asList()[0])]
except Exception, e:
if DEBUG:
print ">>>>>>>>", e
raise
[docs]def expandCollection(terms):
"""
expand ( 1 2 3 ) notation for collections
"""
if DEBUG:
print "Collection: ", terms
res = []
other = []
for x in terms:
if isinstance(x, list): # is this a [ .. ] ?
other += x
x = x[0]
b = rdflib.BNode()
if res:
res += [res[-3], rdflib.RDF.rest, b, b, rdflib.RDF.first, x]
else:
res += [b, rdflib.RDF.first, x]
res += [b, rdflib.RDF.rest, rdflib.RDF.nil]
res += other
if DEBUG:
print "CollectionOut", res
return [res]
# SPARQL Grammar from http://www.w3.org/TR/sparql11-query/#grammar
# ------ TERMINALS --------------
# [139] IRIREF ::= '<' ([^<>"{}|^`\]-[#x00-#x20])* '>'
IRIREF = Combine(Suppress('<') + Regex(r'[^<>"{}|^`\\%s]*' % ''.join(
'\\x%02X' % i for i in range(33))) + Suppress('>'))
IRIREF.setParseAction(lambda x: rdflib.URIRef(x[0]))
# [164] P_CHARS_BASE ::= [A-Z] | [a-z] | [#x00C0-#x00D6] | [#x00D8-#x00F6] | [#x00F8-#x02FF] | [#x0370-#x037D] | [#x037F-#x1FFF] | [#x200C-#x200D] | [#x2070-#x218F] | [#x2C00-#x2FEF] | [#x3001-#xD7FF] | [#xF900-#xFDCF] | [#xFDF0-#xFFFD] | [#x10000-#xEFFFF]
if sys.maxunicode == 0xffff:
# this is narrow python build (default on windows/osx)
# this means that unicode code points over 0xffff are stored
# as several characters, which in turn means that regex character
# ranges with these characters do not work.
# See
# * http://bugs.python.org/issue12729
# * http://bugs.python.org/issue12749
# * http://bugs.python.org/issue3665
#
# Here we simple skip the [#x10000-#xEFFFF] part
# this means that some SPARQL queries will not parse :(
# We *could* generate a new regex with \U00010000|\U00010001 ...
# but it would be quite long :)
#
# in py3.3 this is fixed
PN_CHARS_BASE_re = u'A-Za-z\u00C0-\u00D6\u00D8-\u00F6\u00F8-\u02FF\u0370-\u037D\u037F-\u1FFF\u200C-\u200D\u2070-\u218F\u2C00-\u2FEF\u3001-\uD7FF\uF900-\uFDCF\uFDF0-\uFFFD'
else:
# wide python build
PN_CHARS_BASE_re = u'A-Za-z\u00C0-\u00D6\u00D8-\u00F6\u00F8-\u02FF\u0370-\u037D\u037F-\u1FFF\u200C-\u200D\u2070-\u218F\u2C00-\u2FEF\u3001-\uD7FF\uF900-\uFDCF\uFDF0-\uFFFD\U00010000-\U000EFFFF'
# [165] PN_CHARS_U ::= PN_CHARS_BASE | '_'
PN_CHARS_U_re = '_' + PN_CHARS_BASE_re
# [167] PN_CHARS ::= PN_CHARS_U | '-' | [0-9] | #x00B7 | [#x0300-#x036F] | [#x203F-#x2040]
PN_CHARS_re = u'\\-0-9\u00B7\u0300-\u036F\u203F-\u2040' + PN_CHARS_U_re
# PN_CHARS = Regex(u'[%s]'%PN_CHARS_re, flags=re.U)
# [168] PN_PREFIX ::= PN_CHARS_BASE ((PN_CHARS|'.')* PN_CHARS)?
PN_PREFIX = Regex(ur'[%s](?:[%s\.]*[%s])?' % (PN_CHARS_BASE_re,
PN_CHARS_re, PN_CHARS_re), flags=re.U)
# [140] PNAME_NS ::= PN_PREFIX? ':'
PNAME_NS = Optional(
Param('prefix', PN_PREFIX)) + Suppress(':').leaveWhitespace()
# [173] PN_LOCAL_ESC ::= '\' ( '_' | '~' | '.' | '-' | '!' | '$' | '&' | "'" | '(' | ')' | '*' | '+' | ',' | ';' | '=' | '/' | '?' | '#' | '@' | '%' )
PN_LOCAL_ESC_re = '\\\\[_~\\.\\-!$&"\'()*+,;=/?#@%]'
#PN_LOCAL_ESC = Regex(PN_LOCAL_ESC_re) # regex'd
#PN_LOCAL_ESC.setParseAction(lambda x: x[0][1:])
# [172] HEX ::= [0-9] | [A-F] | [a-f]
# HEX = Regex('[0-9A-Fa-f]') # not needed
# [171] PERCENT ::= '%' HEX HEX
PERCENT_re = '%[0-9a-fA-F]{2}'
#PERCENT = Regex(PERCENT_re) # regex'd
#PERCENT.setParseAction(lambda x: unichr(int(x[0][1:], 16)))
# [170] PLX ::= PERCENT | PN_LOCAL_ESC
PLX_re = '(%s|%s)'%(PN_LOCAL_ESC_re,PERCENT_re)
#PLX = PERCENT | PN_LOCAL_ESC # regex'd
# [169] PN_LOCAL ::= (PN_CHARS_U | ':' | [0-9] | PLX ) ((PN_CHARS | '.' | ':' | PLX)* (PN_CHARS | ':' | PLX) )?
PN_LOCAL = Regex(ur"""([%(PN_CHARS_U)s:0-9]|%(PLX)s)
(([%(PN_CHARS)s\.:]|%(PLX)s)*
([%(PN_CHARS)s:]|%(PLX)s) )?"""%dict(PN_CHARS_U=PN_CHARS_U_re,
PN_CHARS=PN_CHARS_re,
PLX=PLX_re), flags=re.X|re.UNICODE)
def _hexExpand(match):
return unichr(int(match.group(0)[1:], 16))
PN_LOCAL.setParseAction(lambda x: re.sub("(%s)"%PERCENT_re, _hexExpand, x[0]))
# [141] PNAME_LN ::= PNAME_NS PN_LOCAL
PNAME_LN = PNAME_NS + Param('localname', PN_LOCAL.leaveWhitespace())
# [142] BLANK_NODE_LABEL ::= '_:' ( PN_CHARS_U | [0-9] ) ((PN_CHARS|'.')* PN_CHARS)?
BLANK_NODE_LABEL = Regex(ur'_:[0-9%s](?:[\.%s]*[%s])?' % (
PN_CHARS_U_re, PN_CHARS_re, PN_CHARS_re), flags=re.U)
BLANK_NODE_LABEL.setParseAction(lambda x: rdflib.BNode(x[0]))
# [166] VARNAME ::= ( PN_CHARS_U | [0-9] ) ( PN_CHARS_U | [0-9] | #x00B7 | [#x0300-#x036F] | [#x203F-#x2040] )*
VARNAME = Regex(u'[%s0-9][%s0-9\u00B7\u0300-\u036F\u203F-\u2040]*' % (
PN_CHARS_U_re, PN_CHARS_U_re), flags=re.U)
# [143] VAR1 ::= '?' VARNAME
VAR1 = Combine(Suppress('?') + VARNAME)
# [144] VAR2 ::= '$' VARNAME
VAR2 = Combine(Suppress('$') + VARNAME)
# [145] LANGTAG ::= '@' [a-zA-Z]+ ('-' [a-zA-Z0-9]+)*
LANGTAG = Combine(Suppress('@') + Regex('[a-zA-Z]+(?:-[a-zA-Z0-9]+)*'))
# [146] INTEGER ::= [0-9]+
INTEGER = Regex(r"[0-9]+")
# INTEGER.setResultsName('integer')
INTEGER.setParseAction(
lambda x: rdflib.Literal(x[0], datatype=rdflib.XSD.integer))
# [155] EXPONENT ::= [eE] [+-]? [0-9]+
EXPONENT_re = '[eE][+-]?[0-9]+'
# [147] DECIMAL ::= [0-9]* '.' [0-9]+
DECIMAL = Regex(r'[0-9]*\.[0-9]+') # (?![eE])
# DECIMAL.setResultsName('decimal')
DECIMAL.setParseAction(
lambda x: rdflib.Literal(x[0], datatype=rdflib.XSD.decimal))
# [148] DOUBLE ::= [0-9]+ '.' [0-9]* EXPONENT | '.' ([0-9])+ EXPONENT | ([0-9])+ EXPONENT
DOUBLE = Regex(
r'[0-9]+\.[0-9]*%(e)s|\.([0-9])+%(e)s|[0-9]+%(e)s' % {'e': EXPONENT_re})
# DOUBLE.setResultsName('double')
DOUBLE.setParseAction(
lambda x: rdflib.Literal(x[0], datatype=rdflib.XSD.double))
# [149] INTEGER_POSITIVE ::= '+' INTEGER
INTEGER_POSITIVE = Suppress('+') + INTEGER.copy().leaveWhitespace()
INTEGER_POSITIVE.setParseAction(lambda x: rdflib.Literal(
"+"+x[0], datatype=rdflib.XSD.integer))
# [150] DECIMAL_POSITIVE ::= '+' DECIMAL
DECIMAL_POSITIVE = Suppress('+') + DECIMAL.copy().leaveWhitespace()
# [151] DOUBLE_POSITIVE ::= '+' DOUBLE
DOUBLE_POSITIVE = Suppress('+') + DOUBLE.copy().leaveWhitespace()
# [152] INTEGER_NEGATIVE ::= '-' INTEGER
INTEGER_NEGATIVE = Suppress('-') + INTEGER.copy().leaveWhitespace()
INTEGER_NEGATIVE.setParseAction(lambda x: neg(x[0]))
# [153] DECIMAL_NEGATIVE ::= '-' DECIMAL
DECIMAL_NEGATIVE = Suppress('-') + DECIMAL.copy().leaveWhitespace()
DECIMAL_NEGATIVE.setParseAction(lambda x: neg(x[0]))
# [154] DOUBLE_NEGATIVE ::= '-' DOUBLE
DOUBLE_NEGATIVE = Suppress('-') + DOUBLE.copy().leaveWhitespace()
DOUBLE_NEGATIVE.setParseAction(lambda x: neg(x[0]))
# [160] ECHAR ::= '\' [tbnrf\"']
# ECHAR = Regex('\\\\[tbnrf"\']')
# [158] STRING_LITERAL_LONG1 ::= "'''" ( ( "'" | "''" )? ( [^'\] | ECHAR ) )* "'''"
# STRING_LITERAL_LONG1 = Literal("'''") + ( Optional( Literal("'") | "''"
# ) + ZeroOrMore( ~ Literal("'\\") | ECHAR ) ) + "'''"
STRING_LITERAL_LONG1 = Regex(ur"'''((?:'|'')?(?:[^'\\]|\\['ntbrf\\]))*'''")
STRING_LITERAL_LONG1.setParseAction(
lambda x: rdflib.Literal(decodeUnicodeEscape(x[0][3:-3])))
# [159] STRING_LITERAL_LONG2 ::= '"""' ( ( '"' | '""' )? ( [^"\] | ECHAR ) )* '"""'
# STRING_LITERAL_LONG2 = Literal('"""') + ( Optional( Literal('"') | '""'
# ) + ZeroOrMore( ~ Literal('"\\') | ECHAR ) ) + '"""'
STRING_LITERAL_LONG2 = Regex(ur'"""(?:(?:"|"")?(?:[^"\\]|\\["ntbrf\\]))*"""')
STRING_LITERAL_LONG2.setParseAction(
lambda x: rdflib.Literal(decodeUnicodeEscape(x[0][3:-3])))
# [156] STRING_LITERAL1 ::= "'" ( ([^#x27#x5C#xA#xD]) | ECHAR )* "'"
# STRING_LITERAL1 = Literal("'") + ZeroOrMore(
# Regex(u'[^\u0027\u005C\u000A\u000D]',flags=re.U) | ECHAR ) + "'"
STRING_LITERAL1 = Regex(
ur"'(?:[^'\n\r\\]|\\['ntbrf\\])*'(?!')", flags=re.U)
STRING_LITERAL1.setParseAction(
lambda x: rdflib.Literal(decodeUnicodeEscape(x[0][1:-1])))
# [157] STRING_LITERAL2 ::= '"' ( ([^#x22#x5C#xA#xD]) | ECHAR )* '"'
# STRING_LITERAL2 = Literal('"') + ZeroOrMore (
# Regex(u'[^\u0022\u005C\u000A\u000D]',flags=re.U) | ECHAR ) + '"'
STRING_LITERAL2 = Regex(
ur'"(?:[^"\n\r\\]|\\["ntbrf\\])*"(?!")', flags=re.U)
STRING_LITERAL2.setParseAction(
lambda x: rdflib.Literal(decodeUnicodeEscape(x[0][1:-1])))
# [161] NIL ::= '(' WS* ')'
NIL = Literal('(') + ')'
NIL.setParseAction(lambda x: rdflib.RDF.nil)
# [162] WS ::= #x20 | #x9 | #xD | #xA
# Not needed?
# WS = #x20 | #x9 | #xD | #xA
# [163] ANON ::= '[' WS* ']'
ANON = Literal('[') + ']'
ANON.setParseAction(lambda x: rdflib.BNode())
# A = CaseSensitiveKeyword('a')
A = Literal('a')
A.setParseAction(lambda x: rdflib.RDF.type)
# ------ NON-TERMINALS --------------
# [5] BaseDecl ::= 'BASE' IRIREF
BaseDecl = Comp('Base', Keyword('BASE') + Param('iri', IRIREF))
# [6] PrefixDecl ::= 'PREFIX' PNAME_NS IRIREF
PrefixDecl = Comp(
'PrefixDecl', Keyword('PREFIX') + PNAME_NS + Param('iri', IRIREF))
# [4] Prologue ::= ( BaseDecl | PrefixDecl )*
Prologue = Group(ZeroOrMore(BaseDecl | PrefixDecl))
# [108] Var ::= VAR1 | VAR2
Var = VAR1 | VAR2
Var.setParseAction(lambda x: rdflib.term.Variable(x[0]))
# [137] PrefixedName ::= PNAME_LN | PNAME_NS
PrefixedName = Comp('pname', PNAME_LN | PNAME_NS)
# [136] iri ::= IRIREF | PrefixedName
iri = IRIREF | PrefixedName
# [135] String ::= STRING_LITERAL1 | STRING_LITERAL2 | STRING_LITERAL_LONG1 | STRING_LITERAL_LONG2
String = STRING_LITERAL_LONG1 | STRING_LITERAL_LONG2 | STRING_LITERAL1 | STRING_LITERAL2
# [129] RDFLiteral ::= String ( LANGTAG | ( '^^' iri ) )?
RDFLiteral = Comp('literal', Param('string', String) + Optional(Param(
'lang', LANGTAG.leaveWhitespace()) | Literal('^^').leaveWhitespace() + Param('datatype', iri).leaveWhitespace()))
# [132] NumericLiteralPositive ::= INTEGER_POSITIVE | DECIMAL_POSITIVE | DOUBLE_POSITIVE
NumericLiteralPositive = DOUBLE_POSITIVE | DECIMAL_POSITIVE | INTEGER_POSITIVE
# [133] NumericLiteralNegative ::= INTEGER_NEGATIVE | DECIMAL_NEGATIVE | DOUBLE_NEGATIVE
NumericLiteralNegative = DOUBLE_NEGATIVE | DECIMAL_NEGATIVE | INTEGER_NEGATIVE
# [131] NumericLiteralUnsigned ::= INTEGER | DECIMAL | DOUBLE
NumericLiteralUnsigned = DOUBLE | DECIMAL | INTEGER
# [130] NumericLiteral ::= NumericLiteralUnsigned | NumericLiteralPositive | NumericLiteralNegative
NumericLiteral = NumericLiteralUnsigned | NumericLiteralPositive | NumericLiteralNegative
# [134] BooleanLiteral ::= 'true' | 'false'
BooleanLiteral = Keyword('true').setParseAction(lambda: rdflib.Literal(True)) |\
Keyword('false').setParseAction(lambda: rdflib.Literal(False))
# [138] BlankNode ::= BLANK_NODE_LABEL | ANON
BlankNode = BLANK_NODE_LABEL | ANON
# [109] GraphTerm ::= iri | RDFLiteral | NumericLiteral | BooleanLiteral | BlankNode | NIL
GraphTerm = iri | RDFLiteral | NumericLiteral | BooleanLiteral | BlankNode | NIL
# [106] VarOrTerm ::= Var | GraphTerm
VarOrTerm = Var | GraphTerm
# [107] VarOrIri ::= Var | iri
VarOrIri = Var | iri
# [46] GraphRef ::= 'GRAPH' iri
GraphRef = Keyword('GRAPH') + Param('graphiri', iri)
# [47] GraphRefAll ::= GraphRef | 'DEFAULT' | 'NAMED' | 'ALL'
GraphRefAll = GraphRef | Param('graphiri', Keyword('DEFAULT')) | Param(
'graphiri', Keyword('NAMED')) | Param('graphiri', Keyword('ALL'))
# [45] GraphOrDefault ::= 'DEFAULT' | 'GRAPH'? iri
GraphOrDefault = ParamList('graph', Keyword(
'DEFAULT')) | Optional(Keyword('GRAPH')) + ParamList('graph', iri)
# [65] DataBlockValue ::= iri | RDFLiteral | NumericLiteral | BooleanLiteral | 'UNDEF'
DataBlockValue = iri | RDFLiteral | NumericLiteral | BooleanLiteral | Keyword(
'UNDEF')
# [78] Verb ::= VarOrIri | A
Verb = VarOrIri | A
# [85] VerbSimple ::= Var
VerbSimple = Var
# [97] Integer ::= INTEGER
Integer = INTEGER
TriplesNode = Forward()
TriplesNodePath = Forward()
# [104] GraphNode ::= VarOrTerm | TriplesNode
GraphNode = VarOrTerm | TriplesNode
# [105] GraphNodePath ::= VarOrTerm | TriplesNodePath
GraphNodePath = VarOrTerm | TriplesNodePath
# [93] PathMod ::= '?' | '*' | '+'
PathMod = Literal('?') | '*' | '+'
# [96] PathOneInPropertySet ::= iri | A | '^' ( iri | A )
PathOneInPropertySet = iri | A | Comp('InversePath', '^' + (iri | A))
Path = Forward()
# [95] PathNegatedPropertySet ::= PathOneInPropertySet | '(' ( PathOneInPropertySet ( '|' PathOneInPropertySet )* )? ')'
PathNegatedPropertySet = Comp('PathNegatedPropertySet', ParamList('part', PathOneInPropertySet) | '(' + Optional(
ParamList('part', PathOneInPropertySet) + ZeroOrMore('|' + ParamList('part', PathOneInPropertySet))) + ')')
# [94] PathPrimary ::= iri | A | '!' PathNegatedPropertySet | '(' Path ')' | 'DISTINCT' '(' Path ')'
PathPrimary = iri | A | Suppress('!') + PathNegatedPropertySet | Suppress('(') + Path + Suppress(
')') | Comp('DistinctPath', Keyword('DISTINCT') + '(' + Param('part', Path) + ')')
# [91] PathElt ::= PathPrimary Optional(PathMod)
PathElt = Comp('PathElt', Param(
'part', PathPrimary) + Optional(Param('mod', PathMod.leaveWhitespace())))
# [92] PathEltOrInverse ::= PathElt | '^' PathElt
PathEltOrInverse = PathElt | Suppress(
'^') + Comp('PathEltOrInverse', Param('part', PathElt))
# [90] PathSequence ::= PathEltOrInverse ( '/' PathEltOrInverse )*
PathSequence = Comp('PathSequence', ParamList('part', PathEltOrInverse) +
ZeroOrMore('/' + ParamList('part', PathEltOrInverse)))
# [89] PathAlternative ::= PathSequence ( '|' PathSequence )*
PathAlternative = Comp('PathAlternative', ParamList('part', PathSequence) +
ZeroOrMore('|' + ParamList('part', PathSequence)))
# [88] Path ::= PathAlternative
Path << PathAlternative
# [84] VerbPath ::= Path
VerbPath = Path
# [87] ObjectPath ::= GraphNodePath
ObjectPath = GraphNodePath
# [86] ObjectListPath ::= ObjectPath ( ',' ObjectPath )*
ObjectListPath = ObjectPath + ZeroOrMore(',' + ObjectPath)
GroupGraphPattern = Forward()
# [102] Collection ::= '(' OneOrMore(GraphNode) ')'
Collection = Suppress('(') + OneOrMore(GraphNode) + Suppress(')')
Collection.setParseAction(expandCollection)
# [103] CollectionPath ::= '(' OneOrMore(GraphNodePath) ')'
CollectionPath = Suppress('(') + OneOrMore(GraphNodePath) + Suppress(')')
CollectionPath.setParseAction(expandCollection)
# [80] Object ::= GraphNode
Object = GraphNode
# [79] ObjectList ::= Object ( ',' Object )*
ObjectList = Object + ZeroOrMore(',' + Object)
# [83] PropertyListPathNotEmpty ::= ( VerbPath | VerbSimple ) ObjectListPath ( ';' ( ( VerbPath | VerbSimple ) ObjectList )? )*
PropertyListPathNotEmpty = (VerbPath | VerbSimple) + ObjectListPath + ZeroOrMore(
';' + Optional((VerbPath | VerbSimple) + ObjectList))
# [82] PropertyListPath ::= Optional(PropertyListPathNotEmpty)
PropertyListPath = Optional(PropertyListPathNotEmpty)
# [77] PropertyListNotEmpty ::= Verb ObjectList ( ';' ( Verb ObjectList )? )*
PropertyListNotEmpty = Verb + ObjectList + ZeroOrMore(';' + Optional(Verb +
ObjectList))
# [76] PropertyList ::= Optional(PropertyListNotEmpty)
PropertyList = Optional(PropertyListNotEmpty)
# [99] BlankNodePropertyList ::= '[' PropertyListNotEmpty ']'
BlankNodePropertyList = Group(
Suppress('[') + PropertyListNotEmpty + Suppress(']'))
BlankNodePropertyList.setParseAction(expandBNodeTriples)
# [101] BlankNodePropertyListPath ::= '[' PropertyListPathNotEmpty ']'
BlankNodePropertyListPath = Group(
Suppress('[') + PropertyListPathNotEmpty + Suppress(']'))
BlankNodePropertyListPath.setParseAction(expandBNodeTriples)
# [98] TriplesNode ::= Collection | BlankNodePropertyList
TriplesNode << (Collection | BlankNodePropertyList)
# [100] TriplesNodePath ::= CollectionPath | BlankNodePropertyListPath
TriplesNodePath << (CollectionPath | BlankNodePropertyListPath)
# [75] TriplesSameSubject ::= VarOrTerm PropertyListNotEmpty | TriplesNode PropertyList
TriplesSameSubject = VarOrTerm + PropertyListNotEmpty | TriplesNode + \
PropertyList
TriplesSameSubject.setParseAction(expandTriples)
# [52] TriplesTemplate ::= TriplesSameSubject ( '.' Optional(TriplesTemplate) )?
TriplesTemplate = Forward()
TriplesTemplate << (ParamList('triples', TriplesSameSubject) + Optional(
Suppress('.') + Optional(TriplesTemplate)))
# [51] QuadsNotTriples ::= 'GRAPH' VarOrIri '{' Optional(TriplesTemplate) '}'
QuadsNotTriples = Comp('QuadsNotTriples', Keyword('GRAPH') + Param(
'term', VarOrIri) + '{' + Optional(TriplesTemplate) + '}')
# [50] Quads ::= Optional(TriplesTemplate) ( QuadsNotTriples '.'? Optional(TriplesTemplate) )*
Quads = Comp('Quads', Optional(TriplesTemplate) + ZeroOrMore(ParamList(
'quadsNotTriples', QuadsNotTriples) + Optional(Suppress('.')) + Optional(TriplesTemplate)))
# [48] QuadPattern ::= '{' Quads '}'
QuadPattern = '{' + Param('quads', Quads) + '}'
# [49] QuadData ::= '{' Quads '}'
QuadData = '{' + Param('quads', Quads) + '}'
# [81] TriplesSameSubjectPath ::= VarOrTerm PropertyListPathNotEmpty | TriplesNodePath PropertyListPath
TriplesSameSubjectPath = VarOrTerm + \
PropertyListPathNotEmpty | TriplesNodePath + PropertyListPath
TriplesSameSubjectPath.setParseAction(expandTriples)
# [55] TriplesBlock ::= TriplesSameSubjectPath ( '.' Optional(TriplesBlock) )?
TriplesBlock = Forward()
TriplesBlock << (ParamList('triples', TriplesSameSubjectPath) + Optional(
Suppress('.') + Optional(TriplesBlock)))
# [66] MinusGraphPattern ::= 'MINUS' GroupGraphPattern
MinusGraphPattern = Comp(
'MinusGraphPattern', Keyword('MINUS') + Param('graph', GroupGraphPattern))
# [67] GroupOrUnionGraphPattern ::= GroupGraphPattern ( 'UNION' GroupGraphPattern )*
GroupOrUnionGraphPattern = Comp('GroupOrUnionGraphPattern', ParamList(
'graph', GroupGraphPattern) + ZeroOrMore(Keyword('UNION') + ParamList('graph', GroupGraphPattern)))
Expression = Forward()
# [72] ExpressionList ::= NIL | '(' Expression ( ',' Expression )* ')'
ExpressionList = NIL | Group(
Suppress('(') + delimitedList(Expression) + Suppress(')'))
# [122] RegexExpression ::= 'REGEX' '(' Expression ',' Expression ( ',' Expression )? ')'
RegexExpression = Comp('Builtin_REGEX', Keyword('REGEX') + '(' + Param('text', Expression) + ',' + Param(
'pattern', Expression) + Optional(',' + Param('flags', Expression)) + ')')
RegexExpression.setEvalFn(op.Builtin_REGEX)
# [123] SubstringExpression ::= 'SUBSTR' '(' Expression ',' Expression ( ',' Expression )? ')'
SubstringExpression = Comp('Builtin_SUBSTR', Keyword('SUBSTR') + '(' + Param('arg', Expression) + ',' + Param(
'start', Expression) + Optional(',' + Param('length', Expression)) + ')').setEvalFn(op.Builtin_SUBSTR)
# [124] StrReplaceExpression ::= 'REPLACE' '(' Expression ',' Expression ',' Expression ( ',' Expression )? ')'
StrReplaceExpression = Comp('Builtin_REPLACE', Keyword('REPLACE') + '(' + Param('arg', Expression) + ',' + Param(
'pattern', Expression) + ',' + Param('replacement', Expression) + Optional(',' + Param('flags', Expression)) + ')').setEvalFn(op.Builtin_REPLACE)
# [125] ExistsFunc ::= 'EXISTS' GroupGraphPattern
ExistsFunc = Comp('Builtin_EXISTS', Keyword('EXISTS') + Param(
'graph', GroupGraphPattern)).setEvalFn(op.Builtin_EXISTS)
# [126] NotExistsFunc ::= 'NOT' 'EXISTS' GroupGraphPattern
NotExistsFunc = Comp('Builtin_NOTEXISTS', Keyword('NOT') + Keyword(
'EXISTS') + Param('graph', GroupGraphPattern)).setEvalFn(op.Builtin_EXISTS)
# [127] Aggregate ::= 'COUNT' '(' 'DISTINCT'? ( '*' | Expression ) ')'
# | 'SUM' '(' Optional('DISTINCT') Expression ')'
# | 'MIN' '(' Optional('DISTINCT') Expression ')'
# | 'MAX' '(' Optional('DISTINCT') Expression ')'
# | 'AVG' '(' Optional('DISTINCT') Expression ')'
# | 'SAMPLE' '(' Optional('DISTINCT') Expression ')'
# | 'GROUP_CONCAT' '(' Optional('DISTINCT') Expression ( ';' 'SEPARATOR' '=' String )? ')'
_Distinct = Optional(Keyword('DISTINCT'))
_AggregateParams = '(' + Param(
'distinct', _Distinct) + Param('vars', Expression) + ')'
Aggregate = Comp('Aggregate_Count', Keyword('COUNT') + '(' + Param('distinct', _Distinct) + Param('vars', '*' | Expression) + ')')\
| Comp('Aggregate_Sum', Keyword('SUM') + _AggregateParams)\
| Comp('Aggregate_Min', Keyword('MIN') + _AggregateParams)\
| Comp('Aggregate_Max', Keyword('MAX') + _AggregateParams)\
| Comp('Aggregate_Avg', Keyword('AVG') + _AggregateParams)\
| Comp('Aggregate_Sample', Keyword('SAMPLE') + _AggregateParams)\
| Comp('Aggregate_GroupConcat', Keyword('GROUP_CONCAT') + '(' + Param('distinct', _Distinct) + Param('vars', Expression) + Optional(';' + Keyword('SEPARATOR') + '=' + Param('separator', String)) + ')')
# [121] BuiltInCall ::= Aggregate
# | 'STR' '(' + Expression + ')'
# | 'LANG' '(' + Expression + ')'
# | 'LANGMATCHES' '(' + Expression + ',' + Expression + ')'
# | 'DATATYPE' '(' + Expression + ')'
# | 'BOUND' '(' Var ')'
# | 'IRI' '(' + Expression + ')'
# | 'URI' '(' + Expression + ')'
# | 'BNODE' ( '(' + Expression + ')' | NIL )
# | 'RAND' NIL
# | 'ABS' '(' + Expression + ')'
# | 'CEIL' '(' + Expression + ')'
# | 'FLOOR' '(' + Expression + ')'
# | 'ROUND' '(' + Expression + ')'
# | 'CONCAT' ExpressionList
# | SubstringExpression
# | 'STRLEN' '(' + Expression + ')'
# | StrReplaceExpression
# | 'UCASE' '(' + Expression + ')'
# | 'LCASE' '(' + Expression + ')'
# | 'ENCODE_FOR_URI' '(' + Expression + ')'
# | 'CONTAINS' '(' + Expression + ',' + Expression + ')'
# | 'STRSTARTS' '(' + Expression + ',' + Expression + ')'
# | 'STRENDS' '(' + Expression + ',' + Expression + ')'
# | 'STRBEFORE' '(' + Expression + ',' + Expression + ')'
# | 'STRAFTER' '(' + Expression + ',' + Expression + ')'
# | 'YEAR' '(' + Expression + ')'
# | 'MONTH' '(' + Expression + ')'
# | 'DAY' '(' + Expression + ')'
# | 'HOURS' '(' + Expression + ')'
# | 'MINUTES' '(' + Expression + ')'
# | 'SECONDS' '(' + Expression + ')'
# | 'TIMEZONE' '(' + Expression + ')'
# | 'TZ' '(' + Expression + ')'
# | 'NOW' NIL
# | 'UUID' NIL
# | 'STRUUID' NIL
# | 'MD5' '(' + Expression + ')'
# | 'SHA1' '(' + Expression + ')'
# | 'SHA256' '(' + Expression + ')'
# | 'SHA384' '(' + Expression + ')'
# | 'SHA512' '(' + Expression + ')'
# | 'COALESCE' ExpressionList
# | 'IF' '(' Expression ',' Expression ',' Expression ')'
# | 'STRLANG' '(' + Expression + ',' + Expression + ')'
# | 'STRDT' '(' + Expression + ',' + Expression + ')'
# | 'sameTerm' '(' + Expression + ',' + Expression + ')'
# | 'isIRI' '(' + Expression + ')'
# | 'isURI' '(' + Expression + ')'
# | 'isBLANK' '(' + Expression + ')'
# | 'isLITERAL' '(' + Expression + ')'
# | 'isNUMERIC' '(' + Expression + ')'
# | RegexExpression
# | ExistsFunc
# | NotExistsFunc
BuiltInCall = Aggregate \
| Comp('Builtin_STR', Keyword('STR') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_STR) \
| Comp('Builtin_LANG', Keyword('LANG') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_LANG) \
| Comp('Builtin_LANGMATCHES', Keyword('LANGMATCHES') + '(' + Param('arg1', Expression) + ',' + Param('arg2', Expression) + ')').setEvalFn(op.Builtin_LANGMATCHES) \
| Comp('Builtin_DATATYPE', Keyword('DATATYPE') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_DATATYPE) \
| Comp('Builtin_BOUND', Keyword('BOUND') + '(' + Param('arg', Var) + ')').setEvalFn(op.Builtin_BOUND) \
| Comp('Builtin_IRI', Keyword('IRI') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_IRI) \
| Comp('Builtin_URI', Keyword('URI') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_IRI) \
| Comp('Builtin_BNODE', Keyword('BNODE') + ('(' + Param('arg', Expression) + ')' | NIL)).setEvalFn(op.Builtin_BNODE) \
| Comp('Builtin_RAND', Keyword('RAND') + NIL).setEvalFn(op.Builtin_RAND) \
| Comp('Builtin_ABS', Keyword('ABS') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_ABS) \
| Comp('Builtin_CEIL', Keyword('CEIL') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_CEIL) \
| Comp('Builtin_FLOOR', Keyword('FLOOR') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_FLOOR) \
| Comp('Builtin_ROUND', Keyword('ROUND') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_ROUND) \
| Comp('Builtin_CONCAT', Keyword('CONCAT') + Param('arg', ExpressionList)).setEvalFn(op.Builtin_CONCAT) \
| SubstringExpression \
| Comp('Builtin_STRLEN', Keyword('STRLEN') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_STRLEN) \
| StrReplaceExpression \
| Comp('Builtin_UCASE', Keyword('UCASE') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_UCASE) \
| Comp('Builtin_LCASE', Keyword('LCASE') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_LCASE) \
| Comp('Builtin_ENCODE_FOR_URI', Keyword('ENCODE_FOR_URI') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_ENCODE_FOR_URI) \
| Comp('Builtin_CONTAINS', Keyword('CONTAINS') + '(' + Param('arg1', Expression) + ',' + Param('arg2', Expression) + ')').setEvalFn(op.Builtin_CONTAINS) \
| Comp('Builtin_STRSTARTS', Keyword('STRSTARTS') + '(' + Param('arg1', Expression) + ',' + Param('arg2', Expression) + ')').setEvalFn(op.Builtin_STRSTARTS) \
| Comp('Builtin_STRENDS', Keyword('STRENDS') + '(' + Param('arg1', Expression) + ',' + Param('arg2', Expression) + ')').setEvalFn(op.Builtin_STRENDS) \
| Comp('Builtin_STRBEFORE', Keyword('STRBEFORE') + '(' + Param('arg1', Expression) + ',' + Param('arg2', Expression) + ')').setEvalFn(op.Builtin_STRBEFORE) \
| Comp('Builtin_STRAFTER', Keyword('STRAFTER') + '(' + Param('arg1', Expression) + ',' + Param('arg2', Expression) + ')').setEvalFn(op.Builtin_STRAFTER) \
| Comp('Builtin_YEAR', Keyword('YEAR') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_YEAR) \
| Comp('Builtin_MONTH', Keyword('MONTH') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_MONTH) \
| Comp('Builtin_DAY', Keyword('DAY') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_DAY) \
| Comp('Builtin_HOURS', Keyword('HOURS') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_HOURS) \
| Comp('Builtin_MINUTES', Keyword('MINUTES') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_MINUTES) \
| Comp('Builtin_SECONDS', Keyword('SECONDS') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_SECONDS) \
| Comp('Builtin_TIMEZONE', Keyword('TIMEZONE') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_TIMEZONE) \
| Comp('Builtin_TZ', Keyword('TZ') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_TZ) \
| Comp('Builtin_NOW', Keyword('NOW') + NIL).setEvalFn(op.Builtin_NOW) \
| Comp('Builtin_UUID', Keyword('UUID') + NIL).setEvalFn(op.Builtin_UUID) \
| Comp('Builtin_STRUUID', Keyword('STRUUID') + NIL).setEvalFn(op.Builtin_STRUUID) \
| Comp('Builtin_MD5', Keyword('MD5') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_MD5) \
| Comp('Builtin_SHA1', Keyword('SHA1') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_SHA1) \
| Comp('Builtin_SHA256', Keyword('SHA256') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_SHA256) \
| Comp('Builtin_SHA384', Keyword('SHA384') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_SHA384) \
| Comp('Builtin_SHA512', Keyword('SHA512') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_SHA512) \
| Comp('Builtin_COALESCE', Keyword('COALESCE') + Param('arg', ExpressionList)).setEvalFn(op.Builtin_COALESCE) \
| Comp('Builtin_IF', Keyword('IF') + '(' + Param('arg1', Expression) + ',' + Param('arg2', Expression) + ',' + Param('arg3', Expression) + ')').setEvalFn(op.Builtin_IF) \
| Comp('Builtin_STRLANG', Keyword('STRLANG') + '(' + Param('arg1', Expression) + ',' + Param('arg2', Expression) + ')').setEvalFn(op.Builtin_STRLANG) \
| Comp('Builtin_STRDT', Keyword('STRDT') + '(' + Param('arg1', Expression) + ',' + Param('arg2', Expression) + ')').setEvalFn(op.Builtin_STRDT) \
| Comp('Builtin_sameTerm', Keyword('sameTerm') + '(' + Param('arg1', Expression) + ',' + Param('arg2', Expression) + ')').setEvalFn(op.Builtin_sameTerm) \
| Comp('Builtin_isIRI', Keyword('isIRI') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_isIRI) \
| Comp('Builtin_isURI', Keyword('isURI') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_isIRI) \
| Comp('Builtin_isBLANK', Keyword('isBLANK') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_isBLANK) \
| Comp('Builtin_isLITERAL', Keyword('isLITERAL') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_isLITERAL) \
| Comp('Builtin_isNUMERIC', Keyword('isNUMERIC') + '(' + Param('arg', Expression) + ')').setEvalFn(op.Builtin_isNUMERIC) \
| RegexExpression \
| ExistsFunc \
| NotExistsFunc
# [71] ArgList ::= NIL | '(' 'DISTINCT'? Expression ( ',' Expression )* ')'
ArgList = NIL | '(' + Param('distinct', _Distinct) + delimitedList(
ParamList('expr', Expression)) + ')'
# [128] iriOrFunction ::= iri Optional(ArgList)
iriOrFunction = (Comp(
'Function', Param('iri', iri) + ArgList).setEvalFn(op.Function)) | iri
# [70] FunctionCall ::= iri ArgList
FunctionCall = Comp(
'Function', Param('iri', iri) + ArgList).setEvalFn(op.Function)
# [120] BrackettedExpression ::= '(' Expression ')'
BrackettedExpression = Suppress('(') + Expression + Suppress(')')
# [119] PrimaryExpression ::= BrackettedExpression | BuiltInCall | iriOrFunction | RDFLiteral | NumericLiteral | BooleanLiteral | Var
PrimaryExpression = BrackettedExpression | BuiltInCall | iriOrFunction | RDFLiteral | NumericLiteral | BooleanLiteral | Var
# [118] UnaryExpression ::= '!' PrimaryExpression
# | '+' PrimaryExpression
# | '-' PrimaryExpression
# | PrimaryExpression
UnaryExpression = Comp('UnaryNot', '!' + Param('expr', PrimaryExpression)).setEvalFn(op.UnaryNot) \
| Comp('UnaryPlus', '+' + Param('expr', PrimaryExpression)).setEvalFn(op.UnaryPlus) \
| Comp('UnaryMinus', '-' + Param('expr', PrimaryExpression)).setEvalFn(op.UnaryMinus) \
| PrimaryExpression
# [117] MultiplicativeExpression ::= UnaryExpression ( '*' UnaryExpression | '/' UnaryExpression )*
MultiplicativeExpression = Comp('MultiplicativeExpression', Param('expr', UnaryExpression) + ZeroOrMore(ParamList('op', '*') + ParamList(
'other', UnaryExpression) | ParamList('op', '/') + ParamList('other', UnaryExpression))).setEvalFn(op.MultiplicativeExpression)
# [116] AdditiveExpression ::= MultiplicativeExpression ( '+' MultiplicativeExpression | '-' MultiplicativeExpression | ( NumericLiteralPositive | NumericLiteralNegative ) ( ( '*' UnaryExpression ) | ( '/' UnaryExpression ) )* )*
### NOTE: The second part of this production is there because:
### "In signed numbers, no white space is allowed between the sign and the number. The AdditiveExpression grammar rule allows for this by covering the two cases of an expression followed by a signed number. These produce an addition or subtraction of the unsigned number as appropriate."
# Here (I think) this is not nescessary since pyparsing doesn't separate
# tokenizing and parsing
AdditiveExpression = Comp('AdditiveExpression', Param('expr', MultiplicativeExpression) +
ZeroOrMore(ParamList('op', '+') + ParamList('other', MultiplicativeExpression) |
ParamList('op', '-') + ParamList('other', MultiplicativeExpression))).setEvalFn(op.AdditiveExpression)
# [115] NumericExpression ::= AdditiveExpression
NumericExpression = AdditiveExpression
# [114] RelationalExpression ::= NumericExpression ( '=' NumericExpression | '!=' NumericExpression | '<' NumericExpression | '>' NumericExpression | '<=' NumericExpression | '>=' NumericExpression | 'IN' ExpressionList | 'NOT' 'IN' ExpressionList )?
RelationalExpression = Comp('RelationalExpression', Param('expr', NumericExpression) + Optional(
Param('op', '=') + Param('other', NumericExpression) |
Param('op', '!=') + Param('other', NumericExpression) |
Param('op', '<') + Param('other', NumericExpression) |
Param('op', '>') + Param('other', NumericExpression) |
Param('op', '<=') + Param('other', NumericExpression) |
Param('op', '>=') + Param('other', NumericExpression) |
Param('op', Keyword('IN')) + Param('other', ExpressionList) |
Param('op', Combine(Keyword('NOT') + Keyword('IN'), adjacent=False, joinString=" ")) + Param('other', ExpressionList))).setEvalFn(op.RelationalExpression)
# [113] ValueLogical ::= RelationalExpression
ValueLogical = RelationalExpression
# [112] ConditionalAndExpression ::= ValueLogical ( '&&' ValueLogical )*
ConditionalAndExpression = Comp('ConditionalAndExpression', Param('expr', ValueLogical) + ZeroOrMore(
'&&' + ParamList('other', ValueLogical))).setEvalFn(op.ConditionalAndExpression)
# [111] ConditionalOrExpression ::= ConditionalAndExpression ( '||' ConditionalAndExpression )*
ConditionalOrExpression = Comp('ConditionalOrExpression', Param('expr', ConditionalAndExpression) + ZeroOrMore(
'||' + ParamList('other', ConditionalAndExpression))).setEvalFn(op.ConditionalOrExpression)
# [110] Expression ::= ConditionalOrExpression
Expression << ConditionalOrExpression
# [69] Constraint ::= BrackettedExpression | BuiltInCall | FunctionCall
Constraint = BrackettedExpression | BuiltInCall | FunctionCall
# [68] Filter ::= 'FILTER' Constraint
Filter = Comp('Filter', Keyword('FILTER') + Param('expr', Constraint))
# [16] SourceSelector ::= iri
SourceSelector = iri
# [14] DefaultGraphClause ::= SourceSelector
DefaultGraphClause = SourceSelector
# [15] NamedGraphClause ::= 'NAMED' SourceSelector
NamedGraphClause = Keyword('NAMED') + Param('named', SourceSelector)
# [13] DatasetClause ::= 'FROM' ( DefaultGraphClause | NamedGraphClause )
DatasetClause = Comp('DatasetClause', Keyword(
'FROM') + (Param('default', DefaultGraphClause) | NamedGraphClause))
# [20] GroupCondition ::= BuiltInCall | FunctionCall | '(' Expression ( 'AS' Var )? ')' | Var
GroupCondition = BuiltInCall | FunctionCall | Comp('GroupAs', '(' + Param(
'expr', Expression) + Optional(Keyword('AS') + Param('var', Var)) + ')') | Var
# [19] GroupClause ::= 'GROUP' 'BY' GroupCondition+
GroupClause = Comp('GroupClause', Keyword('GROUP') + Keyword(
'BY') + OneOrMore(ParamList('condition', GroupCondition)))
_Silent = Optional(Param('silent', Keyword('SILENT')))
# [31] Load ::= 'LOAD' 'SILENT'? iri ( 'INTO' GraphRef )?
Load = Comp('Load', Keyword('LOAD') + _Silent + Param('iri', iri) +
Optional(Keyword('INTO') + GraphRef))
# [32] Clear ::= 'CLEAR' 'SILENT'? GraphRefAll
Clear = Comp('Clear', Keyword('CLEAR') + _Silent + GraphRefAll)
# [33] Drop ::= 'DROP' _Silent GraphRefAll
Drop = Comp('Drop', Keyword('DROP') + _Silent + GraphRefAll)
# [34] Create ::= 'CREATE' _Silent GraphRef
Create = Comp('Create', Keyword('CREATE') + _Silent + GraphRef)
# [35] Add ::= 'ADD' _Silent GraphOrDefault 'TO' GraphOrDefault
Add = Comp('Add', Keyword(
'ADD') + _Silent + GraphOrDefault + Keyword('TO') + GraphOrDefault)
# [36] Move ::= 'MOVE' _Silent GraphOrDefault 'TO' GraphOrDefault
Move = Comp('Move', Keyword(
'MOVE') + _Silent + GraphOrDefault + Keyword('TO') + GraphOrDefault)
# [37] Copy ::= 'COPY' _Silent GraphOrDefault 'TO' GraphOrDefault
Copy = Comp('Copy', Keyword(
'COPY') + _Silent + GraphOrDefault + Keyword('TO') + GraphOrDefault)
# [38] InsertData ::= 'INSERT DATA' QuadData
InsertData = Comp('InsertData', Keyword('INSERT') + Keyword('DATA') + QuadData)
# [39] DeleteData ::= 'DELETE DATA' QuadData
DeleteData = Comp('DeleteData', Keyword('DELETE') + Keyword('DATA') + QuadData)
# [40] DeleteWhere ::= 'DELETE WHERE' QuadPattern
DeleteWhere = Comp(
'DeleteWhere', Keyword('DELETE') + Keyword('WHERE') + QuadPattern)
# [42] DeleteClause ::= 'DELETE' QuadPattern
DeleteClause = Comp('DeleteClause', Keyword('DELETE') + QuadPattern)
# [43] InsertClause ::= 'INSERT' QuadPattern
InsertClause = Comp('InsertClause', Keyword('INSERT') + QuadPattern)
# [44] UsingClause ::= 'USING' ( iri | 'NAMED' iri )
UsingClause = Comp('UsingClause', Keyword('USING') + (
Param('default', iri) | Keyword('NAMED') + Param('named', iri)))
# [41] Modify ::= ( 'WITH' iri )? ( DeleteClause Optional(InsertClause) | InsertClause ) ZeroOrMore(UsingClause) 'WHERE' GroupGraphPattern
Modify = Comp('Modify', Optional(Keyword('WITH') + Param('withClause', iri)) + (Param('delete', DeleteClause) + Optional(Param(
'insert', InsertClause)) | Param('insert', InsertClause)) + ZeroOrMore(ParamList('using', UsingClause)) + Keyword('WHERE') + Param('where', GroupGraphPattern))
# [30] Update1 ::= Load | Clear | Drop | Add | Move | Copy | Create | InsertData | DeleteData | DeleteWhere | Modify
Update1 = Load | Clear | Drop | Add | Move | Copy | Create | InsertData | DeleteData | DeleteWhere | Modify
# [63] InlineDataOneVar ::= Var '{' ZeroOrMore(DataBlockValue) '}'
InlineDataOneVar = ParamList(
'var', Var) + '{' + ZeroOrMore(ParamList('value', DataBlockValue)) + '}'
# [64] InlineDataFull ::= ( NIL | '(' ZeroOrMore(Var) ')' ) '{' ( '(' ZeroOrMore(DataBlockValue) ')' | NIL )* '}'
InlineDataFull = (NIL | '(' + ZeroOrMore(ParamList('var', Var)) + ')') + '{' + ZeroOrMore(
ParamList('value', Group(Suppress('(') + ZeroOrMore(DataBlockValue) + Suppress(')') | NIL))) + '}'
# [62] DataBlock ::= InlineDataOneVar | InlineDataFull
DataBlock = InlineDataOneVar | InlineDataFull
# [28] ValuesClause ::= ( 'VALUES' DataBlock )?
ValuesClause = Optional(Param(
'valuesClause', Comp('ValuesClause', Keyword('VALUES') + DataBlock)))
# [74] ConstructTriples ::= TriplesSameSubject ( '.' Optional(ConstructTriples) )?
ConstructTriples = Forward()
ConstructTriples << (ParamList('template', TriplesSameSubject) + Optional(
Suppress('.') + Optional(ConstructTriples)))
# [73] ConstructTemplate ::= '{' Optional(ConstructTriples) '}'
ConstructTemplate = Suppress('{') + Optional(ConstructTriples) + Suppress('}')
# [57] OptionalGraphPattern ::= 'OPTIONAL' GroupGraphPattern
OptionalGraphPattern = Comp('OptionalGraphPattern', Keyword(
'OPTIONAL') + Param('graph', GroupGraphPattern))
# [58] GraphGraphPattern ::= 'GRAPH' VarOrIri GroupGraphPattern
GraphGraphPattern = Comp('GraphGraphPattern', Keyword(
'GRAPH') + Param('term', VarOrIri) + Param('graph', GroupGraphPattern))
# [59] ServiceGraphPattern ::= 'SERVICE' _Silent VarOrIri GroupGraphPattern
ServiceGraphPattern = Comp('ServiceGraphPattern', Keyword(
'SERVICE') + _Silent + Param('term', VarOrIri) + Param('graph', GroupGraphPattern))
# [60] Bind ::= 'BIND' '(' Expression 'AS' Var ')'
Bind = Comp('Bind', Keyword('BIND') + '(' + Param(
'expr', Expression) + Keyword('AS') + Param('var', Var) + ')')
# [61] InlineData ::= 'VALUES' DataBlock
InlineData = Comp('InlineData', Keyword('VALUES') + DataBlock)
# [56] GraphPatternNotTriples ::= GroupOrUnionGraphPattern | OptionalGraphPattern | MinusGraphPattern | GraphGraphPattern | ServiceGraphPattern | Filter | Bind | InlineData
GraphPatternNotTriples = GroupOrUnionGraphPattern | OptionalGraphPattern | MinusGraphPattern | GraphGraphPattern | ServiceGraphPattern | Filter | Bind | InlineData
# [54] GroupGraphPatternSub ::= Optional(TriplesBlock) ( GraphPatternNotTriples '.'? Optional(TriplesBlock) )*
GroupGraphPatternSub = Comp('GroupGraphPatternSub', Optional(ParamList('part', Comp('TriplesBlock', TriplesBlock))) + ZeroOrMore(
ParamList('part', GraphPatternNotTriples) + Optional('.') + Optional(ParamList('part', Comp('TriplesBlock', TriplesBlock)))))
# ----------------
# [22] HavingCondition ::= Constraint
HavingCondition = Constraint
# [21] HavingClause ::= 'HAVING' HavingCondition+
HavingClause = Comp('HavingClause', Keyword(
'HAVING') + OneOrMore(ParamList('condition', HavingCondition)))
# [24] OrderCondition ::= ( ( 'ASC' | 'DESC' ) BrackettedExpression )
# | ( Constraint | Var )
OrderCondition = Comp('OrderCondition', Param('order', Keyword('ASC') | Keyword(
'DESC')) + Param('expr', BrackettedExpression) | Param('expr', Constraint | Var))
# [23] OrderClause ::= 'ORDER' 'BY' OneOrMore(OrderCondition)
OrderClause = Comp('OrderClause', Keyword('ORDER') + Keyword(
'BY') + OneOrMore(ParamList('condition', OrderCondition)))
# [26] LimitClause ::= 'LIMIT' INTEGER
LimitClause = Keyword('LIMIT') + Param('limit', INTEGER)
# [27] OffsetClause ::= 'OFFSET' INTEGER
OffsetClause = Keyword('OFFSET') + Param('offset', INTEGER)
# [25] LimitOffsetClauses ::= LimitClause Optional(OffsetClause) | OffsetClause Optional(LimitClause)
LimitOffsetClauses = Comp('LimitOffsetClauses', LimitClause + Optional(
OffsetClause) | OffsetClause + Optional(LimitClause))
# [18] SolutionModifier ::= GroupClause? HavingClause? OrderClause? LimitOffsetClauses?
SolutionModifier = Optional(Param('groupby', GroupClause)) + Optional(Param('having', HavingClause)) + Optional(
Param('orderby', OrderClause)) + Optional(Param('limitoffset', LimitOffsetClauses))
# [9] SelectClause ::= 'SELECT' ( 'DISTINCT' | 'REDUCED' )? ( ( Var | ( '(' Expression 'AS' Var ')' ) )+ | '*' )
SelectClause = Keyword('SELECT') + Optional(Param('modifier', Keyword('DISTINCT') | Keyword('REDUCED'))) + (OneOrMore(ParamList('projection', Comp('vars',
Param('var', Var) | (Literal('(') + Param('expr', Expression) + Keyword('AS') + Param('evar', Var) + ')')))) | '*')
# [17] WhereClause ::= 'WHERE'? GroupGraphPattern
WhereClause = Optional(Keyword('WHERE')) + Param('where', GroupGraphPattern)
# [8] SubSelect ::= SelectClause WhereClause SolutionModifier ValuesClause
SubSelect = Comp('SubSelect', SelectClause + WhereClause +
SolutionModifier + ValuesClause)
# [53] GroupGraphPattern ::= '{' ( SubSelect | GroupGraphPatternSub ) '}'
GroupGraphPattern << (
Suppress('{') + (SubSelect | GroupGraphPatternSub) + Suppress('}'))
# [7] SelectQuery ::= SelectClause DatasetClause* WhereClause SolutionModifier
SelectQuery = Comp('SelectQuery', SelectClause + ZeroOrMore(ParamList(
'datasetClause', DatasetClause)) + WhereClause + SolutionModifier + ValuesClause)
# [10] ConstructQuery ::= 'CONSTRUCT' ( ConstructTemplate DatasetClause* WhereClause SolutionModifier | DatasetClause* 'WHERE' '{' TriplesTemplate? '}' SolutionModifier )
# NOTE: The CONSTRUCT WHERE alternative has unnescessarily many Comp/Param pairs
# to allow it to through the same algebra translation process
ConstructQuery = Comp('ConstructQuery', Keyword('CONSTRUCT') + (ConstructTemplate + ZeroOrMore(ParamList('datasetClause', DatasetClause)) + WhereClause + SolutionModifier + ValuesClause | ZeroOrMore(ParamList(
'datasetClause', DatasetClause)) + Keyword('WHERE') + '{' + Optional(Param('where', Comp('FakeGroupGraphPatten', ParamList('part', Comp('TriplesBlock', TriplesTemplate))))) + '}' + SolutionModifier + ValuesClause))
# [12] AskQuery ::= 'ASK' DatasetClause* WhereClause SolutionModifier
AskQuery = Comp('AskQuery', Keyword('ASK') + Param('datasetClause', ZeroOrMore(
DatasetClause)) + WhereClause + SolutionModifier + ValuesClause)
# [11] DescribeQuery ::= 'DESCRIBE' ( VarOrIri+ | '*' ) DatasetClause* WhereClause? SolutionModifier
DescribeQuery = Comp('DescribeQuery', Keyword('DESCRIBE') + (OneOrMore(ParamList('var', VarOrIri)) | '*') + Param(
'datasetClause', ZeroOrMore(DatasetClause)) + Optional(WhereClause) + SolutionModifier + ValuesClause)
# [29] Update ::= Prologue ( Update1 ( ';' Update )? )?
Update = Forward()
Update << (ParamList('prologue', Prologue) + Optional(ParamList('request',
Update1) + Optional(';' + Update)))
# [2] Query ::= Prologue
# ( SelectQuery | ConstructQuery | DescribeQuery | AskQuery )
# ValuesClause
# NOTE: ValuesClause was moved to invidual queries
Query = Prologue + (SelectQuery | ConstructQuery | DescribeQuery | AskQuery)
# [3] UpdateUnit ::= Update
UpdateUnit = Comp('Update', Update)
# [1] QueryUnit ::= Query
QueryUnit = Query
QueryUnit.ignore('#' + restOfLine)
UpdateUnit.ignore('#' + restOfLine)
expandUnicodeEscapes_re = re.compile(
r'\\u([0-9a-f]{4}(?:[0-9a-f]{4})?)', flags=re.I)
[docs]def expandUnicodeEscapes(q):
"""
The syntax of the SPARQL Query Language is expressed over code points in Unicode [UNICODE]. The encoding is always UTF-8 [RFC3629].
Unicode code points may also be expressed using an \ uXXXX (U+0 to U+FFFF) or \ UXXXXXXXX syntax (for U+10000 onwards) where X is a hexadecimal digit [0-9A-F]
"""
def expand(m):
try:
return unichr(int(m.group(1), 16))
except:
raise Exception("Invalid unicode code point: " + m)
return expandUnicodeEscapes_re.sub(expand, q)
[docs]def parseQuery(q):
if hasattr(q, 'read'):
q = q.read()
if isinstance(q, bytestype):
q = q.decode('utf-8')
q = expandUnicodeEscapes(q)
return Query.parseString(q, parseAll=True)
[docs]def parseUpdate(q):
if hasattr(q, 'read'):
q = q.read()
if isinstance(q, bytestype):
q = q.decode('utf-8')
q = expandUnicodeEscapes(q)
return UpdateUnit.parseString(q, parseAll=True)[0]
if __name__ == '__main__':
import sys
DEBUG = True
try:
q = Query.parseString(sys.argv[1])
print "\nSyntax Tree:\n"
print q
except ParseException, err:
print err.line
print " " * (err.column - 1) + "^"
print err