$Id: cwm_list.html,v 1.9 2007/11/18 03:40:44 syosi Exp $
 
List and set built-ins for cwm
http://www.w3.org/2000/10/swap/cwm_list.py
 
See cwm.py and the os module in python

Modules
		uripath

Classes
		term.Function(term.BuiltIn) BI_append(term.LightBuiltIn, term.Function) BI_first(term.RDFBuiltIn, term.Function) BI_last(term.LightBuiltIn, term.Function) BI_members(term.LightBuiltIn, term.Function) BI_rest(term.RDFBuiltIn, term.Function) term.LightBuiltIn(term.GenericBuiltIn) BI_append(term.LightBuiltIn, term.Function) BI_in(term.LightBuiltIn, term.MultipleReverseFunction) BI_last(term.LightBuiltIn, term.Function) BI_member(term.LightBuiltIn, term.MultipleFunction) BI_members(term.LightBuiltIn, term.Function) term.MultipleFunction(term.Function) BI_member(term.LightBuiltIn, term.MultipleFunction) term.MultipleReverseFunction(term.ReverseFunction) BI_in(term.LightBuiltIn, term.MultipleReverseFunction) term.RDFBuiltIn(term.LightBuiltIn) BI_first(term.RDFBuiltIn, term.Function) BI_rest(term.RDFBuiltIn, term.Function)   class BI_append(term.LightBuiltIn, term.Function)     Takes a list of lists, and appends them together.     Method resolution order: BI_append term.LightBuiltIn term.GenericBuiltIn term.Function term.BuiltIn term.Fragment term.LabelledNode term.Node term.Term __builtin__.object Methods defined here: evalObj(self, subj, queue, bindings, proof, query) Methods inherited from term.GenericBuiltIn: __init__(self, resource, fragid) Methods inherited from term.Function: eval(self, subj, obj, queue, bindings, proof, query) Static methods inherited from term.BuiltIn: __new__(cls, *args, **keywords) Data and other attributes inherited from term.BuiltIn: all = [] Methods inherited from term.Fragment: compareTerm(self, other) dereference(self, mode='', workingContext=None) dereference an identifyer, finding the semantics of its schema if any   Returns None if it cannot be retreived. generated(self) A generated identifier? This arises when a document is parsed and a arbitrary name is made up to represent a node with no known URI. It is useful to know that its ID has no use outside that context. representation(self, base=None) Optimize output if prefixes available uriref(self) uriref2(self, base) Methods inherited from term.LabelledNode: classOrder(self) Methods inherited from term.Term: __repr__(self) This method only used for debugging output - it can be ambiguous, as it is is deliberately short to make debug printout readable.   output as XML qnames [http://www.w3.org/TR/REC-xml-names/#NT-QName]. This could be beefed up to guarantee unambiguity. asPair(self) Representation in an earlier format, being phased out 2002/08   The first part of the pair is a constant number represnting the type see RDFSink.py.  the second is the value -- uri for symbols, string for literals compareAnyTerm(self, other) Compare two langauge items This is a cannoncial ordering in that is designed to allow the same graph always to be printed in the same order. This makes the regression tests possible. The literals are deemed smaller than symbols, which are smaller than formulae.  This puts the rules at the botom of a file where they tend to take a lot of space anyway. Formulae have to be compared as a function of their sorted contents.   @@ Anonymous nodes have to, within a given Formula, be compared as a function of the sorted information about them in that context. This is not done yet debugString(self, already=[]) doesNodeAppear(self, symbol) Does that node appear within this one   This non-overloaded function will simply return if I'm equal to him freeVariables(self) occurringIn(self, vars) substituteEquals(self, bindings, newRedirections) Return this or a version of me with substitution made substitution(self, bindings, why=None, cannon=False) Return this or a version of me with subsitution made unify(self, other, env1=Env({}), env2=Env({}), vars=set([]), universals=set([]), existentials=set([]), n1Source=32, n2Source=32) unifySecondary(self, other, env1, env2, vars, universals, existentials, n1Source=55, n2Source=55) value(self) As a python value - by default, none exists, use self Data and other attributes inherited from term.Term: __dict__ = <dictproxy object> dictionary for instance variables (if defined) __weakref__ = <attribute '__weakref__' of 'Term' objects> list of weak references to the object (if defined)   class BI_first(term.RDFBuiltIn, term.Function)       Method resolution order: BI_first term.RDFBuiltIn term.LightBuiltIn term.GenericBuiltIn term.Function term.BuiltIn term.Fragment term.LabelledNode term.Node term.Term __builtin__.object Methods defined here: evalObj(self, subj, queue, bindings, proof, query) Methods inherited from term.GenericBuiltIn: __init__(self, resource, fragid) Methods inherited from term.Function: eval(self, subj, obj, queue, bindings, proof, query) Static methods inherited from term.BuiltIn: __new__(cls, *args, **keywords) Data and other attributes inherited from term.BuiltIn: all = [] Methods inherited from term.Fragment: compareTerm(self, other) dereference(self, mode='', workingContext=None) dereference an identifyer, finding the semantics of its schema if any   Returns None if it cannot be retreived. generated(self) A generated identifier? This arises when a document is parsed and a arbitrary name is made up to represent a node with no known URI. It is useful to know that its ID has no use outside that context. representation(self, base=None) Optimize output if prefixes available uriref(self) uriref2(self, base) Methods inherited from term.LabelledNode: classOrder(self) Methods inherited from term.Term: __repr__(self) This method only used for debugging output - it can be ambiguous, as it is is deliberately short to make debug printout readable.   output as XML qnames [http://www.w3.org/TR/REC-xml-names/#NT-QName]. This could be beefed up to guarantee unambiguity. asPair(self) Representation in an earlier format, being phased out 2002/08   The first part of the pair is a constant number represnting the type see RDFSink.py.  the second is the value -- uri for symbols, string for literals compareAnyTerm(self, other) Compare two langauge items This is a cannoncial ordering in that is designed to allow the same graph always to be printed in the same order. This makes the regression tests possible. The literals are deemed smaller than symbols, which are smaller than formulae.  This puts the rules at the botom of a file where they tend to take a lot of space anyway. Formulae have to be compared as a function of their sorted contents.   @@ Anonymous nodes have to, within a given Formula, be compared as a function of the sorted information about them in that context. This is not done yet debugString(self, already=[]) doesNodeAppear(self, symbol) Does that node appear within this one   This non-overloaded function will simply return if I'm equal to him freeVariables(self) occurringIn(self, vars) substituteEquals(self, bindings, newRedirections) Return this or a version of me with substitution made substitution(self, bindings, why=None, cannon=False) Return this or a version of me with subsitution made unify(self, other, env1=Env({}), env2=Env({}), vars=set([]), universals=set([]), existentials=set([]), n1Source=32, n2Source=32) unifySecondary(self, other, env1, env2, vars, universals, existentials, n1Source=55, n2Source=55) value(self) As a python value - by default, none exists, use self Data and other attributes inherited from term.Term: __dict__ = <dictproxy object> dictionary for instance variables (if defined) __weakref__ = <attribute '__weakref__' of 'Term' objects> list of weak references to the object (if defined)   class BI_in(term.LightBuiltIn, term.MultipleReverseFunction)     Is the subject in the object? Returnes a sequence of values.     Method resolution order: BI_in term.LightBuiltIn term.GenericBuiltIn term.MultipleReverseFunction term.ReverseFunction term.BuiltIn term.Fragment term.LabelledNode term.Node term.Term __builtin__.object Methods defined here: eval(self, subj, obj, queue, bindings, proof, query) evalSubj(self, obj, queue, bindings, proof, query) Methods inherited from term.GenericBuiltIn: __init__(self, resource, fragid) Methods inherited from term.MultipleReverseFunction: evalObj(self, subj, queue, bindings, proof, query) Static methods inherited from term.BuiltIn: __new__(cls, *args, **keywords) Data and other attributes inherited from term.BuiltIn: all = [] Methods inherited from term.Fragment: compareTerm(self, other) dereference(self, mode='', workingContext=None) dereference an identifyer, finding the semantics of its schema if any   Returns None if it cannot be retreived. generated(self) A generated identifier? This arises when a document is parsed and a arbitrary name is made up to represent a node with no known URI. It is useful to know that its ID has no use outside that context. representation(self, base=None) Optimize output if prefixes available uriref(self) uriref2(self, base) Methods inherited from term.LabelledNode: classOrder(self) Methods inherited from term.Term: __repr__(self) This method only used for debugging output - it can be ambiguous, as it is is deliberately short to make debug printout readable.   output as XML qnames [http://www.w3.org/TR/REC-xml-names/#NT-QName]. This could be beefed up to guarantee unambiguity. asPair(self) Representation in an earlier format, being phased out 2002/08   The first part of the pair is a constant number represnting the type see RDFSink.py.  the second is the value -- uri for symbols, string for literals compareAnyTerm(self, other) Compare two langauge items This is a cannoncial ordering in that is designed to allow the same graph always to be printed in the same order. This makes the regression tests possible. The literals are deemed smaller than symbols, which are smaller than formulae.  This puts the rules at the botom of a file where they tend to take a lot of space anyway. Formulae have to be compared as a function of their sorted contents.   @@ Anonymous nodes have to, within a given Formula, be compared as a function of the sorted information about them in that context. This is not done yet debugString(self, already=[]) doesNodeAppear(self, symbol) Does that node appear within this one   This non-overloaded function will simply return if I'm equal to him freeVariables(self) occurringIn(self, vars) substituteEquals(self, bindings, newRedirections) Return this or a version of me with substitution made substitution(self, bindings, why=None, cannon=False) Return this or a version of me with subsitution made unify(self, other, env1=Env({}), env2=Env({}), vars=set([]), universals=set([]), existentials=set([]), n1Source=32, n2Source=32) unifySecondary(self, other, env1, env2, vars, universals, existentials, n1Source=55, n2Source=55) value(self) As a python value - by default, none exists, use self Data and other attributes inherited from term.Term: __dict__ = <dictproxy object> dictionary for instance variables (if defined) __weakref__ = <attribute '__weakref__' of 'Term' objects> list of weak references to the object (if defined)   class BI_last(term.LightBuiltIn, term.Function)       Method resolution order: BI_last term.LightBuiltIn term.GenericBuiltIn term.Function term.BuiltIn term.Fragment term.LabelledNode term.Node term.Term __builtin__.object Methods defined here: evalObj(self, subj, queue, bindings, proof, query) Methods inherited from term.GenericBuiltIn: __init__(self, resource, fragid) Methods inherited from term.Function: eval(self, subj, obj, queue, bindings, proof, query) Static methods inherited from term.BuiltIn: __new__(cls, *args, **keywords) Data and other attributes inherited from term.BuiltIn: all = [] Methods inherited from term.Fragment: compareTerm(self, other) dereference(self, mode='', workingContext=None) dereference an identifyer, finding the semantics of its schema if any   Returns None if it cannot be retreived. generated(self) A generated identifier? This arises when a document is parsed and a arbitrary name is made up to represent a node with no known URI. It is useful to know that its ID has no use outside that context. representation(self, base=None) Optimize output if prefixes available uriref(self) uriref2(self, base) Methods inherited from term.LabelledNode: classOrder(self) Methods inherited from term.Term: __repr__(self) This method only used for debugging output - it can be ambiguous, as it is is deliberately short to make debug printout readable.   output as XML qnames [http://www.w3.org/TR/REC-xml-names/#NT-QName]. This could be beefed up to guarantee unambiguity. asPair(self) Representation in an earlier format, being phased out 2002/08   The first part of the pair is a constant number represnting the type see RDFSink.py.  the second is the value -- uri for symbols, string for literals compareAnyTerm(self, other) Compare two langauge items This is a cannoncial ordering in that is designed to allow the same graph always to be printed in the same order. This makes the regression tests possible. The literals are deemed smaller than symbols, which are smaller than formulae.  This puts the rules at the botom of a file where they tend to take a lot of space anyway. Formulae have to be compared as a function of their sorted contents.   @@ Anonymous nodes have to, within a given Formula, be compared as a function of the sorted information about them in that context. This is not done yet debugString(self, already=[]) doesNodeAppear(self, symbol) Does that node appear within this one   This non-overloaded function will simply return if I'm equal to him freeVariables(self) occurringIn(self, vars) substituteEquals(self, bindings, newRedirections) Return this or a version of me with substitution made substitution(self, bindings, why=None, cannon=False) Return this or a version of me with subsitution made unify(self, other, env1=Env({}), env2=Env({}), vars=set([]), universals=set([]), existentials=set([]), n1Source=32, n2Source=32) unifySecondary(self, other, env1, env2, vars, universals, existentials, n1Source=55, n2Source=55) value(self) As a python value - by default, none exists, use self Data and other attributes inherited from term.Term: __dict__ = <dictproxy object> dictionary for instance variables (if defined) __weakref__ = <attribute '__weakref__' of 'Term' objects> list of weak references to the object (if defined)   class BI_member(term.LightBuiltIn, term.MultipleFunction)     Is the subject in the object? Returnes a sequence of values.     Method resolution order: BI_member term.LightBuiltIn term.GenericBuiltIn term.MultipleFunction term.Function term.BuiltIn term.Fragment term.LabelledNode term.Node term.Term __builtin__.object Methods defined here: eval(self, subj, obj, queue, bindings, proof, query) evalObj(self, subj, queue, bindings, proof, query) Methods inherited from term.GenericBuiltIn: __init__(self, resource, fragid) Methods inherited from term.MultipleFunction: evalSubj(self, obj, queue, bindings, proof, query) This function which has access to the store, unless overridden, calls a simpler one which uses python conventions. The python one returns a list of function values. This returns a 'new bindings' structure (nbs) which is a sequence of (bindings, reason) pairs. Static methods inherited from term.BuiltIn: __new__(cls, *args, **keywords) Data and other attributes inherited from term.BuiltIn: all = [] Methods inherited from term.Fragment: compareTerm(self, other) dereference(self, mode='', workingContext=None) dereference an identifyer, finding the semantics of its schema if any   Returns None if it cannot be retreived. generated(self) A generated identifier? This arises when a document is parsed and a arbitrary name is made up to represent a node with no known URI. It is useful to know that its ID has no use outside that context. representation(self, base=None) Optimize output if prefixes available uriref(self) uriref2(self, base) Methods inherited from term.LabelledNode: classOrder(self) Methods inherited from term.Term: __repr__(self) This method only used for debugging output - it can be ambiguous, as it is is deliberately short to make debug printout readable.   output as XML qnames [http://www.w3.org/TR/REC-xml-names/#NT-QName]. This could be beefed up to guarantee unambiguity. asPair(self) Representation in an earlier format, being phased out 2002/08   The first part of the pair is a constant number represnting the type see RDFSink.py.  the second is the value -- uri for symbols, string for literals compareAnyTerm(self, other) Compare two langauge items This is a cannoncial ordering in that is designed to allow the same graph always to be printed in the same order. This makes the regression tests possible. The literals are deemed smaller than symbols, which are smaller than formulae.  This puts the rules at the botom of a file where they tend to take a lot of space anyway. Formulae have to be compared as a function of their sorted contents.   @@ Anonymous nodes have to, within a given Formula, be compared as a function of the sorted information about them in that context. This is not done yet debugString(self, already=[]) doesNodeAppear(self, symbol) Does that node appear within this one   This non-overloaded function will simply return if I'm equal to him freeVariables(self) occurringIn(self, vars) substituteEquals(self, bindings, newRedirections) Return this or a version of me with substitution made substitution(self, bindings, why=None, cannon=False) Return this or a version of me with subsitution made unify(self, other, env1=Env({}), env2=Env({}), vars=set([]), universals=set([]), existentials=set([]), n1Source=32, n2Source=32) unifySecondary(self, other, env1, env2, vars, universals, existentials, n1Source=55, n2Source=55) value(self) As a python value - by default, none exists, use self Data and other attributes inherited from term.Term: __dict__ = <dictproxy object> dictionary for instance variables (if defined) __weakref__ = <attribute '__weakref__' of 'Term' objects> list of weak references to the object (if defined)   class BI_members(term.LightBuiltIn, term.Function)     Makes a set from a list     Method resolution order: BI_members term.LightBuiltIn term.GenericBuiltIn term.Function term.BuiltIn term.Fragment term.LabelledNode term.Node term.Term __builtin__.object Methods defined here: evaluateObject(self, subj) Methods inherited from term.GenericBuiltIn: __init__(self, resource, fragid) Methods inherited from term.Function: eval(self, subj, obj, queue, bindings, proof, query) evalObj(self, subj, queue, bindings, proof, query) This function which has access to the store, unless overridden, calls a simpler one which uses python conventions.   To reduce confusion, the inital ones called with the internals available use abreviations "eval", "subj" etc while the python-style ones use "evaluate", "subject", etc. Static methods inherited from term.BuiltIn: __new__(cls, *args, **keywords) Data and other attributes inherited from term.BuiltIn: all = [] Methods inherited from term.Fragment: compareTerm(self, other) dereference(self, mode='', workingContext=None) dereference an identifyer, finding the semantics of its schema if any   Returns None if it cannot be retreived. generated(self) A generated identifier? This arises when a document is parsed and a arbitrary name is made up to represent a node with no known URI. It is useful to know that its ID has no use outside that context. representation(self, base=None) Optimize output if prefixes available uriref(self) uriref2(self, base) Methods inherited from term.LabelledNode: classOrder(self) Methods inherited from term.Term: __repr__(self) This method only used for debugging output - it can be ambiguous, as it is is deliberately short to make debug printout readable.   output as XML qnames [http://www.w3.org/TR/REC-xml-names/#NT-QName]. This could be beefed up to guarantee unambiguity. asPair(self) Representation in an earlier format, being phased out 2002/08   The first part of the pair is a constant number represnting the type see RDFSink.py.  the second is the value -- uri for symbols, string for literals compareAnyTerm(self, other) Compare two langauge items This is a cannoncial ordering in that is designed to allow the same graph always to be printed in the same order. This makes the regression tests possible. The literals are deemed smaller than symbols, which are smaller than formulae.  This puts the rules at the botom of a file where they tend to take a lot of space anyway. Formulae have to be compared as a function of their sorted contents.   @@ Anonymous nodes have to, within a given Formula, be compared as a function of the sorted information about them in that context. This is not done yet debugString(self, already=[]) doesNodeAppear(self, symbol) Does that node appear within this one   This non-overloaded function will simply return if I'm equal to him freeVariables(self) occurringIn(self, vars) substituteEquals(self, bindings, newRedirections) Return this or a version of me with substitution made substitution(self, bindings, why=None, cannon=False) Return this or a version of me with subsitution made unify(self, other, env1=Env({}), env2=Env({}), vars=set([]), universals=set([]), existentials=set([]), n1Source=32, n2Source=32) unifySecondary(self, other, env1, env2, vars, universals, existentials, n1Source=55, n2Source=55) value(self) As a python value - by default, none exists, use self Data and other attributes inherited from term.Term: __dict__ = <dictproxy object> dictionary for instance variables (if defined) __weakref__ = <attribute '__weakref__' of 'Term' objects> list of weak references to the object (if defined)   class BI_rest(term.RDFBuiltIn, term.Function)       Method resolution order: BI_rest term.RDFBuiltIn term.LightBuiltIn term.GenericBuiltIn term.Function term.BuiltIn term.Fragment term.LabelledNode term.Node term.Term __builtin__.object Methods defined here: evalObj(self, subj, queue, bindings, proof, query) Methods inherited from term.GenericBuiltIn: __init__(self, resource, fragid) Methods inherited from term.Function: eval(self, subj, obj, queue, bindings, proof, query) Static methods inherited from term.BuiltIn: __new__(cls, *args, **keywords) Data and other attributes inherited from term.BuiltIn: all = [] Methods inherited from term.Fragment: compareTerm(self, other) dereference(self, mode='', workingContext=None) dereference an identifyer, finding the semantics of its schema if any   Returns None if it cannot be retreived. generated(self) A generated identifier? This arises when a document is parsed and a arbitrary name is made up to represent a node with no known URI. It is useful to know that its ID has no use outside that context. representation(self, base=None) Optimize output if prefixes available uriref(self) uriref2(self, base) Methods inherited from term.LabelledNode: classOrder(self) Methods inherited from term.Term: __repr__(self) This method only used for debugging output - it can be ambiguous, as it is is deliberately short to make debug printout readable.   output as XML qnames [http://www.w3.org/TR/REC-xml-names/#NT-QName]. This could be beefed up to guarantee unambiguity. asPair(self) Representation in an earlier format, being phased out 2002/08   The first part of the pair is a constant number represnting the type see RDFSink.py.  the second is the value -- uri for symbols, string for literals compareAnyTerm(self, other) Compare two langauge items This is a cannoncial ordering in that is designed to allow the same graph always to be printed in the same order. This makes the regression tests possible. The literals are deemed smaller than symbols, which are smaller than formulae.  This puts the rules at the botom of a file where they tend to take a lot of space anyway. Formulae have to be compared as a function of their sorted contents.   @@ Anonymous nodes have to, within a given Formula, be compared as a function of the sorted information about them in that context. This is not done yet debugString(self, already=[]) doesNodeAppear(self, symbol) Does that node appear within this one   This non-overloaded function will simply return if I'm equal to him freeVariables(self) occurringIn(self, vars) substituteEquals(self, bindings, newRedirections) Return this or a version of me with substitution made substitution(self, bindings, why=None, cannon=False) Return this or a version of me with subsitution made unify(self, other, env1=Env({}), env2=Env({}), vars=set([]), universals=set([]), existentials=set([]), n1Source=32, n2Source=32) unifySecondary(self, other, env1, env2, vars, universals, existentials, n1Source=55, n2Source=55) value(self) As a python value - by default, none exists, use self Data and other attributes inherited from term.Term: __dict__ = <dictproxy object> dictionary for instance variables (if defined) __weakref__ = <attribute '__weakref__' of 'Term' objects> list of weak references to the object (if defined)

Functions
		register(store)

Data
		ListOperationsNamespace = 'http://www.w3.org/2000/10/swap/list#' List_NS = 'http://www.w3.org/1999/02/22-rdf-syntax-ns#' Logic_NS = 'http://www.w3.org/2000/10/swap/log#'