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# -*- coding: utf-8 -*-

"""
@see: U{SPARQL Specification<http://www.w3.org/TR/rdf-sparql-query/>}
@authors: U{Ivan Herman<http://www.ivan-herman.net>}, U{Sergio Fernández<http://www.wikier.org>}, U{Carlos Tejo Alonso<http://www.dayures.net>}
@organization: U{World Wide Web Consortium<http://www.w3.org>} and U{Foundation CTIC<http://www.fundacionctic.org/>}.
@license: U{W3C® SOFTWARE NOTICE AND LICENSE<href="http://www.w3.org/Consortium/Legal/copyright-software">}
@requires: U{RDFLib<http://rdflib.net>} package.
"""

import SPARQLWrapper
from SPARQLWrapper.Wrapper import JSON, SELECT
import urllib2
from types import *


######################################################################################

class Value(object):
    """
    Class encapsulating a single binding for a variable.

    @cvar URI: the string denoting a URI variable
    @cvar Literal: the string denoting a Literal variable
    @cvar TypedLiteral: the string denoting a typed literal variable
    @cvar BNODE: the string denoting a blank node variable

    @ivar variable: The original variable, stored for an easier reference
    @type variable: string
    @ivar value: Value of the binding
    @type value: string
    @ivar type: Type of the binding
    @type type: string; one of  L{Value.URI}, L{Value.Literal}, L{Value.TypedLiteral}, or L{Value.BNODE}
    @ivar lang: Language tag of the binding, or C{None} if not set
    @type lang: string
    @ivar datatype: Datatype of the binding, or C{None} if not set
    @type datatype: string (URI)
    """
    URI          = "uri"
    Literal      = "literal"
    TypedLiteral = "typed-literal"
    BNODE        = "bnode"

    def __init__(self,variable,binding) :
        """
        @param variable: the variable for that binding. Stored for an easier reference
        @param binding: the binding dictionary part of the return result for a specific binding
        """
        self.variable  = variable
        self.value     = binding['value']
        self.type      = binding['type']
        self.lang      = None
        self.datatype  = None
        try :
            self.lang = binding['xml:lang']
        except :
            # no lang is set
            pass
        try :
            self.datatype = binding['datatype']
        except :
            pass

    def __repr__(self):
        cls = self.__class__.__name__
        return "%s(%s:%r)" % (cls, self.type, self.value)

######################################################################################


class Bindings(object):
    """
    Class encapsulating one query result, based on the JSON return format. It decodes the
    return values to make it a bit more usable for a standard usage. The class consumes the
    return value and instantiates a number of attributes that can be consulted directly. See
    the list of variables.

    The U{Serializing SPARQL Query Results in JSON<http://www.w3.org/TR/rdf-sparql-json-res/>} explains the details of the
    JSON return structures. Very succintly: the return data has "bindings", which means a list of dictionaries. Each
    dictionary is a possible binding of the SELECT variables to L{Value} instances. This structure is made a bit
    more usable by this class.

    @ivar fullResult: The original dictionary of the results, stored for an easier reference
    @ivar head: Header part of the return, see the JSON return format document for details
    @ivar variables: List of unbounds (variables) of the original query. It is an array of strings. None in the case of an ASK query
    @ivar bindings: The final bindings: array of dictionaries, mapping variables to L{Value} instances.
    (If unbound, then no value is set in the dictionary; that can be easily checked with
    C{var in res.bindings[..]}, for example.)
    @ivar askResult: by default, set to False; in case of an ASK query, the result of the query
    @type askResult: Boolean
    """
    def __init__(self,retval) :
        """
        @param retval: the query result, instance of a L{Wrapper.QueryResult}
        """
        self.fullResult  = retval._convertJSON()
        self.head        = self.fullResult['head']
        self.variables   = None
        try :
            self.variables   = self.fullResult['head']['vars']
        except :
            pass

        self.bindings    = []
        try :
            for b in self.fullResult['results']['bindings'] :
                #  this is a single binding.  It is a dictionary per variable; each value is a dictionary again that has to be
                # converted into a Value instance
                newBind = {}
                for key in self.variables :
                    if key in b :
                        # there is a real binding for this key
                        newBind[key] = Value(key,b[key])
                self.bindings.append(newBind)
        except :
            pass

        self.askResult = False
        try :
            self.askResult = self.fullResult["boolean"]
        except :
            pass

    def getValues(self,key) :
        """A shorthand for the retrieval of all bindings for a single key. It is
        equivalent to "C{[b[key] for b in self[key]]}"
        @param key: possible variable
        @return: list of L{Value} instances
        """
        try :
            return [b[key] for b in self[key]]
        except :
            return []

    def __contains__(self,key) :
        """Emulation of the "C{key in obj}" operator. Key can be a string for a variable or an array/tuple
        of strings.

        If C{key} is a variable, the return value is C{True} if there is at least one binding where C{key} is
        bound. If C{key} is an array or tuple, the return value is C{True} if there is at least one binding
        where I{all} variables in C{key} are bound.

        @param key: possible variable, or array/tuple of variables
        @return: whether there is a binding of the variable in the return
        @rtype: Boolean
        """
        if len(self.bindings) == 0 : return False
        if type(key) is list or type(key) is tuple:
            # check first whether they are all really variables
            if False in [ k in self.variables for k in key ]: return False
            for b in self.bindings :
                # try to find a binding where all key elements are present
                if False in [ k in b for k in key ] :
                    # this is not a binding for the key combination, move on...
                    continue
                else :
                    # yep, this one is good!
                    return True
            return False
        else :
            if key not in self.variables : return False
            for b in self.bindings :
                if key in b : return True
            return False

    def __getitem__(self,key) :
        """Emulation of the C{obj[key]} operator.  Slice notation is also available.
        The goal is to choose the right bindings among the available ones. The return values are always
        arrays  of bindings, ie, arrays of dictionaries mapping variable keys to L{Value} instances.
        The different value settings mean the followings:

         - C{obj[key]} returns the bindings where C{key} has a valid value
         - C{obj[key1,key2,...]} returns the bindings where I{all} C{key1,key2,...} have valid values
         - C{obj[(key1,key2,...):(nkey1,nkey2,...)]} returns the bindings where all C{key1,key2,...} have
         valid values and I{none} of the C{nkey1,nkey2,...} have valid values
         - C{obj[:(nkey1,nkey2,...)]} returns the bindings where I{none} of the C{nkey1,nkey2,...} have valid values

        In all cases complete bindings are returned, ie, the values for other variables, not present among
        the keys in the call, may or may not be present depending on the query results.

        @param key: possible variable or array/tuple of keys with possible slice notation
        @return: list of bindings
        @rtype: array of variable -> L{Value}  dictionaries
        """
        def _checkKeys(keys) :
            if len(keys) == 0 : return False
            for k in keys :
                if not isinstance(k, basestring) or not k in self.variables: return False
            return True

        def _nonSliceCase(key) :
            if isinstance(key, basestring) and key != "" and key in self.variables :
                # unicode or string:
                return [key]
            elif type(key) is list or type(key) is tuple:
                if _checkKeys(key) :
                    return key
            return False

        # The arguments should be reduced to arrays of variables, ie, unicode strings
        yes_keys = []
        no_keys  = []
        if type(key) is slice :
            # Note: None for start or stop is all right
            if key.start :
                yes_keys = _nonSliceCase(key.start)
                if not yes_keys: raise TypeError
            if key.stop :
                no_keys  = _nonSliceCase(key.stop)
                if not no_keys: raise TypeError
        else :
            yes_keys = _nonSliceCase(key)

        # got it right, now get the right binding line with the constraints
        retval = []
        for b in self.bindings :
            # first check whether the 'yes' part is all there:
            if False in [k in b for k in yes_keys] : continue
            if True  in [k in b for k in no_keys]  : continue
            # if we got that far, we shouild be all right!
            retval.append(b)
        # if retval is of zero length, no hit; an exception should be raised to stay within the python style
        if len(retval) == 0 :
            raise IndexError
        return retval

    def convert(self) :
        """This is just a convenience method, returns C{self}.

        Although C{Binding} is not a subclass of L{QueryResult<SPARQLWrapper.Wrapper.QueryResult>}, it is returned as a result by
        L{SPARQLWrapper2.query}, just like L{QueryResult<SPARQLWrapper.Wrapper.QueryResult>} is returned by
        L{SPARQLWrapper.SPARQLWrapper.query}. Consequently,
        having an empty C{convert} method to imitate L{QueryResult's convert method<SPARQLWrapper.Wrapper.QueryResult.convert>} may avoid unnecessary problems.
        """
        return self

##############################################################################################################


class SPARQLWrapper2(SPARQLWrapper.SPARQLWrapper):
    """Subclass of L{Wrapper<SPARQLWrapper.SPARQLWrapper>} that works with a JSON SELECT return result only. The query result 
    is automatically set to a L{Bindings} instance. Makes the average query processing a bit simpler..."""
    def __init__(self, baseURI, defaultGraph=None):
        """
        Class encapsulating a full SPARQL call. In contrast to the L{SPARQLWrapper<SPARQLWrapper.SPARQLWrapper>} superclass, the return format
        cannot be set (it is defaulted to L{JSON<Wrapper.JSON>}).
        @param baseURI: string of the SPARQL endpoint's URI
        @type baseURI: string
        @keyword defaultGraph: URI for the default graph. Default is None, can be set via an explicit call, too
        @type defaultGraph: string
        """
        super(SPARQLWrapper2, self).__init__(baseURI, returnFormat=JSON, defaultGraph=defaultGraph)

    def setReturnFormat(self, format):
        """Set the return format (overriding the L{inherited method<SPARQLWrapper.SPARQLWrapper.setReturnFormat>}).
        This method does nothing; this class instance should work with JSON only. The method is defined
        just to avoid possible errors by erronously setting the return format.
        When using this class, the user can safely ignore this call.
        @param format: return format
        """
        pass

    def query(self):
        """
            Execute the query and do an automatic conversion.

            Exceptions can be raised if either the URI is wrong or the HTTP sends back an error.
            The usual urllib2 exceptions are raised, which cover possible SPARQL errors, too.

            If the query type is I{not} SELECT, the method falls back to the
            L{corresponding method in the superclass<SPARQLWrapper.query>}.

            @return: query result
            @rtype: L{Bindings} instance
        """
        res = super(SPARQLWrapper2, self).query()

        if self.queryType == SELECT:
            return Bindings(res)
        else:
            return res

    def queryAndConvert(self):
        """This is here to override the inherited method; it is equivalent to L{query}.

        If the query type is I{not} SELECT, the method falls back to the
        L{corresponding method in the superclass<SPARQLWrapper.queryAndConvert>}.

        @return: the converted query result.
        """
        if self.queryType == SELECT:
            return self.query()
        else:
            return super(SPARQLWrapper2, self).queryAndConvert()