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from gstudio.models import *
from django.template.defaultfilters import slugify
import inflect
import os
def get_CNL_list(self):
x = []
a = get_lex_sentence(self)
if not a:
pass
else:
x.extend(a)
b = lex_sentence_optional(self)
if not b:
pass
else:
x.extend(b)
c = contains_subtypes_sentence(self)
if not c:
pass
else:
x.extend(c)
d = typeof_sentence(self)
if not d:
pass
else:
x.extend(d)
e = get_CNL_dependency(self)
if not e:
pass
else:
x.extend(e)
f = get_rel(self)
if not f:
pass
else:
x.extend(f)
g = get_attr_sentence(self)
if not g:
pass
else:
x.extend(g)
return x
def advanced_CNL(self):
y = []
h = get_leftST_sentence(self)
if not h:
pass
else:
y.extend(h)
i = get_rightST_sentence(self)
if not i:
pass
else:
y.extend(i)
j = get_ST_sentence(self)
if not j:
pass
else:
y.extend(j)
k = get_CNL_sentence_authors(self)
if not k:
pass
else:
y.extend(k)
"""To generate CNL data about RT/R"""
a = get_RT_sentence(self)
if not a:
pass
else:
y.extend(a)
return y
#Returns lex sentence - Title
def get_lex_sentence(self):
if self.ref.__class__.__name__ is 'Relationtype' or self.ref.__class__.__name__ is 'Attribute':
pass
else:
# If AT or RT
at = []
if self.title:
title = slugify(self.title)
title_slug = slugify(title)
if self.ref.__class__.__name__ is 'Attributetype' or self.ref.__class__.__name__ is 'Objecttype':
g = "A "+str(title_slug).lower()+" is a common-noun."
elif self.ref.__class__.__name__ is 'Metatype':
g = "A "+str(title_slug).lower()+" is a metatype."
at.append(g)
return at
#Returns CNL sentences - Plural & Alternate names
def lex_sentence_optional(self):
# If AT, MT or OT
a = []
if self.ref.__class__.__name__ is 'Attribute' or self.ref.__class__.__name__ is 'Relationtype':
pass
elif self.ref.__class__.__name__ is 'Attributetype' or self.ref.__class__.__name__ is 'Objecttype' or self.ref.__class__.__name__ is 'Metatype':
title_slug = slugify(self.title)
if self.altnames:
alt = self.altnames
alt_slug = slugify(alt)
e = "A "+str(alt_slug)+" is an alternate name for it."
a.append(e.capitalize())
# If MT or OT
if self.ref.__class__.__name__ is 'Objecttype' or self.ref.__class__.__name__ is 'Metatype':
if self.plural:
plu_slug = slugify(self.plural)
m="Some "+str(plu_slug)+" are a plural of a "+str(title_slug)+"."
a.append(m.capitalize())
return a
#Generates CNL sentence for RT for which OT or MT is the left-subjecttype
def get_leftST_sentence(self):
if self.ref.__class__.__name__ is 'Attributetype' or self.ref.__class__.__name__ is 'Relationtype' or self.ref.__class__.__name__ is 'Attribute':
pass
else:
#If OT or MT
cns=self.ref.get_nbh
d = []
for k in cns:
title = str(cns['title'])
title_slug = slugify(title)
if self.ref.__class__.__name__ is 'Objecttype' or 'Metatype':
if k == 'left_subjecttype_of':
if not cns[k]:
pass
else:
l_s_a = []
l_s_a = self.left_subjecttype_of.all()
len_lsa=len(l_s_a)
if len_lsa == 1:
#If singular:
for each in l_s_a:
al=slugify(each)
#A person is a n:left_subjecttype of a n:relation_type a:teaches and a:student-of and a:sibling-of and a:friend-of.
if self.ref.__class__.__name__ is 'Objecttype':
c = "A "+str(title_slug)+" is a left_subjecttype of a relation_type "+str(al)+"."
elif self.ref.__class__.__name__ is 'Metatype':
c = "A "+str(title_slug)+" is a left_subjecttype of a relation_type "+str(al)+"."
d.append(c.capitalize())
else:
#If plural:
y=[]
for each in self.left_subjecttype_of.all():
a=each
a_slug=slugify(a)
y.append(a_slug)
for e_i in y:
if y.index(e_i) == 0:
sen = str(e_i)
else:
sen = str(sen)+" and "+str(e_i)
if self.ref.__class__.__name__ is 'Objecttype':
c = "A "+str(title_slug)+" is a left_subjecttype of a relation_type "+sen+"."
elif self.ref.__class__.__name__ is 'Metatype':
c = "A "+str(title_slug)+" is a left_subjecttype of a relation_type "+sen+"."
d.append(c.capitalize())
return d
#Generates CNL sentence for RT for which OT or MT is the right-subjecttype
def get_rightST_sentence(self):
if self.ref.__class__.__name__ is 'Attributetype' or self.ref.__class__.__name__ is 'Relationtype' or self.ref.__class__.__name__ is 'Attribute':
pass
else:
#If OT or MT
cns=self.ref.get_nbh
d = []
for k in cns:
title = str(cns['title'])
title_slug = slugify(title)
if self.ref.__class__.__name__ is 'Objecttype' or self.ref.__class__.__name__ is 'Metatype':
if k == 'right_subjecttype_of':
if not cns[k]:
pass
else:
r_s_a = []
r_s_a = self.right_subjecttype_of.all()
len_rsa=len(r_s_a)
if len_rsa == 1:
#If singular:
for each in r_s_a:
al=slugify(each)
if self.ref.__class__.__name__ is 'Objecttype':
c = "A "+str(title_slug)+" is a right_subjecttype of a relation_type "+str(al)+"."
elif self.ref.__class__.__name__ is 'Metatype':
c = "A "+str(title_slug)+" is a right_subjecttype of a relation_type "+str(al)+"."
d.append(c.capitalize())
else:
#If plural:
y=[]
for each in self.right_subjecttype_of.all():
a=each
a_slug=slugify(a)
y.append(a_slug)
for e_i in y:
if y.index(e_i) == 0:
sen = str(e_i)
else:
sen = str(sen)+" and "+str(e_i)
if self.ref.__class__.__name__ is 'Objecttype':
c = "A "+str(title_slug)+" is a right_subjecttype of a relation_type "+sen+"."
elif self.ref.__class__.__name__ is 'Metatype':
c = "A "+str(title_slug)+" is a right_subjecttype of a relation_type "+sen+"."
d.append(c.capitalize())
return d
#Generates Subject-type sentence for AT
def get_ST_sentence(self):
if self.ref.__class__.__name__ is 'Attribute':
pass
elif self.ref.__class__.__name__ is 'Attributetype':
a = []
if self.subjecttype:
subjecttype = self.subjecttype
st_type = subjecttype.ref.__class__.__name__
if st_type == 'Gbobject':
c = str(subjecttype)+" is a subject_type_name for it."
else:
c = "A "+str(subjecttype)+" is a subject_type_name for it."
a.append(c.capitalize())
return a
#Generates contains-subtypes for MT or OT
def contains_subtypes_sentence(self):
if self.ref.__class__.__name__ is 'Metatype' or self.ref.__class__.__name__ is 'Objecttype' or self.ref.__class__.__name__ is 'Attribute':
pass
elif self.ref.__class__.__name__ is 'Metatype' or self.ref.__class__.__name__ is 'Objecttype':
#print "is a mt or OT"
#print "it just entered the loop"
cns=self.ref.get_nbh
d = []
for k in cns:
title = str(cns['title'])
title_slug = slugify(title)
if k=='contains_subtypes':
if not cns[k]:
pass
else:
if self.ref.__class__.__name__ is 'Metatype':
nof=self.children.get_query_set()
elif self.ref.__class__.__name__ is 'Objecttype':
nof=Nodetype.objects.filter(parent=self.id)
len_nof=len(nof)
#print "nof----" ,nof
#print len_nof, "len - nof"
if len_nof == 1:
for each in nof:
nf=slugify(each)
l = "A "+str(nf)+" is a subtype of a "+str(title_slug)+"."
d.append(l.capitalize())
else:
#print "len not 1"
y=[]
for each in nof:
a=each
a_slug=slugify(a)
y.append(a_slug)
for e_i in y:
if y.index(e_i) == 0:
sen = str(e_i)
else:
sen = str(sen)+" and a "+str(e_i)
l = "A "+sen+" are some subtypes of "+str(title_slug)+"."
d.append(l.capitalize())
return d
#Generates Type-Of sentence for OT or MT
#get_nbh type_of --- Metatype
def typeof_sentence(self):
d = []
if self.ref.__class__.__name__ is 'Relationtype' or self.ref.__class__.__name__ is 'Attributetype' or self.ref.__class__.__name__ is 'Attribute':
pass
elif self.ref.__class__.__name__ is 'Objecttype' or self.ref.__class__.__name__ is 'Metatype':
#print "mt or ot"
cns = self.ref.get_nbh
for k in cns:
title = str(cns['title'])
title_slug = slugify(title)
if k=='type_of':
if not cns[k]:
pass
else:
if self.ref.__class__.__name__ is 'Objecttype':
n = self.parent
n_slug=slugify(n)
elif self.ref.__class__.__name__ is 'Metatype':
n = str(cns[k])
n_slug=slugify(n)
an = "A "+str(title_slug)+" is a type of a "+str(n_slug)+"."
d.append(an.capitalize())
return d
#Generates CNL Sentence - Prior & Posterior Nodes
def get_CNL_dependency(self):
if self.ref.__class__.__name__ is 'Attribute':
pass
elif self.ref.__class__.__name__ is 'Objecttype' or self.ref.__class__.__name__ is 'Attributetype' :
title = self.title
title_slug = slugify(title)
d=[]
if self.prior_nodes.all():
p_n_a = []
p_n_a = self.prior_nodes.all()
#print len(p_n_a)
len_pna=len(p_n_a)
if len_pna == 1:
for each in p_n_a:
pn=slugify(each)
h="A "+str(title_slug)+" depends on a "+str(pn)+"."
d.append(h.capitalize())
else:
sen = dependency_plural(p_n_a)
h = "A "+str(sen)+". It is required for the meaning of a "+str(title_slug)+"."
d.append(h)
if self.posterior_nodes.all():
p_n_a = []
p_n_a = self.posterior_nodes.all()
#print "length of posterior nodes-----" ,len(p_n_a)
len_pna=len(p_n_a)
if len_pna == 1:
for each in p_n_a:
pn = slugify(each)
p = "A "+str(title_slug)+" is required for the meaning of a "+str(pn)+"."
d.append(p.capitalize())
else:
sen = dependency_plural(p_n_a)
p = "A "+str(sen)+". It depends on "+str(title_slug)+"."
d.append(p)
return d
#Generates dependency sentence for plural
def dependency_plural(p_n_a):
y=[]
#print "len not 1"
for each in p_n_a:
each_r = each.ref.__class__.__name__
apn = each
apn_slug = slugify(apn)
if len(y) == 0:
"If Y is empty, for first item"
if each_r == 'Relationtype':
b_slug = str(apn_slug)+" is an adjective"
else:
b_slug = str(apn_slug)+" is a common-noun"
y.append(b_slug)
else:
if each_r != 'Relationtype':
#print "Its not a relation_type, but a noun, so appending an 'a' "
aa_slug = "a "+str(apn_slug)+" is a common-noun"
y.append(aa_slug)
else:
#print "It is a relationtype"
ab_slug = str(apn_slug)+" is an adjective"
y.append(ab_slug)
for e_i in y:
if y.index(e_i) == 0:
sen = str(e_i).lower()
else:
sen = str(sen)+" and "+str(e_i).lower()
return sen
#Generates CNL sentence for authors, in OT and AT
def get_CNL_sentence_authors(self):
title = self.title
title_slug = slugify(title)
d=[]
if self.ref.__class__.__name__ is 'Attribute':
pass
elif self.ref.__class__.__name__ is 'Objecttype' or self.ref.__class__.__name__ is 'Attributetype':
if self.authors.all():
auth = []
auth = self.authors.all()
len_auth=len(auth)
if len_auth == 1:
for each in auth:
aut=slugify(each)
e=str(aut).title()+" is an author to a "+str(title_slug)+"."
d.append(e.capitalize())
else:
#print "len not 1"
y=[]
for each in self.authors.all():
a=each
a_slug=slugify(a)
y.append(a_slug)
for e_i in y:
if y.index(e_i) == 0:
sen = str(e_i)
else:
sen = str(sen)+" and "+str(e_i)
e = str(sen).title()+" are all chosen authors to a "+str(title_slug)+"."
d.append(e.capitalize())
return d
#Checks if RT-title is a transitive verb finite singular or an iterative adjective
def istv_title(self):
p = inflect.engine()
from django.template.defaultfilters import slugify
destination = open( "/home/user/gnowsys-studio/demo/aFile.pl", "r+" )
f = destination.read()
a_t = self.title
a = slugify(a_t)
if '-' not in a:
if a[-1] == 's':
a_s = p.singular_noun(a)
a_lex = "tv_finsg("+a+", "+str(a_s)+")."
strpos = f.find(a_lex)
if strpos != -1:
return True
else:
return False
#Checks if RT-inverse is a transitive verb finite singular or an iterative adjective
def istv_inverse(self):
p = inflect.engine()
destination = open( os.path.join(os.getcwd(),'aFile.pl'), "r+" )
f = destination.read()
a_t = self.inverse
a = slugify(a_t)
if '-' not in a:
if a[-1] == 's':
a_s = p.singular_noun(a)
a_lex = "tv_finsg("+a+", "+str(a_s)+")."
strpos = f.find(a_lex)
if strpos != -1:
return True
else:
return False
#Returns attributes for the given OT
def get_attr_sentence(self):
if self.ref.__class__.__name__ is 'Objecttype':
from django.template.defaultfilters import slugify
ot = self.get_attributes
if not ot:
pass
else:
a = []
title = self.title
title_slug = slugify(title)
for k,v in ot.iteritems():
attr = k
for each in v:
value = each
attr_slug = slugify(attr)
sen = "The "+str(attr_slug)+" of a "+str(title_slug)+" is "+str(value)+"."
a.append(sen)
return a
else:
pass
def get_list_relation(self, lr):
"""Returns the list of relations"""
gbr = self.get_rendered_relations
if not gbr:
pass
else:
for k,v in gbr.iteritems():
if k == 'lrelations':
val_l = v
if k == 'rrelations':
val_r = v
if lr == 0:
return val_l
elif lr == 1:
return val_r
#Generating CNL for RT and Relations:
#(**Execute get_lex property to update new RT's in lexicon before executing CNL sentences.)
def get_CNL_sentence_RT(self, lst, rst, detail_level):
if self.ref.__class__.__name__ is 'Relationtype':
core = [] #core data list
core_t = []
core_i = []
reflexive = []
adv = [] # advanced data list
title=self.title
title_slug=slugify(title)
inverse=self.inverse
inverse_slug=slugify(inverse)
is_symmetrical=self.is_symmetrical
is_reflexive=self.is_reflexive
llist = []
rlist = []
llist = lst
rlist = rst
#print "lst",llist
#print "rst",rlist
#Flag variable that checks if plural or not
plural_l = 0
plural_r = 0
#print "ll--",llist
#print "rr---",rlist
if isinstance(llist,list):
"""If llist is a list"""
ll = []
for each in llist:
if each.ref.__class__.__name__ is not 'Gbobject':
"""Common-noun"""
lst = "a "+str(each).lower()
else:
"""Proper-noun"""
lst = str(each).title()
ll.append(lst)
#print "ll",ll
if len(ll) == 1:
for e in ll:
left_subtype = e
#print "e in ll",left_subtype
else:
plural_l = 1
for e in ll:
if ll.index(e)==0:
sen = str(e)
else:
sen = str(sen)+" and "+str(e)
left_subtype = sen
else:
"""If llist is not a list"""
lst=NID.objects.get(title=lst)
if lst.ref.__class__.__name__ is 'Gbobject':
left_subtype = lst
else:
left_subtype = "a "+str(lst)
#print "left_subtype---",left_subtype
if isinstance(rlist,list):
"""If rlist is a list"""
rl = []
for each in rlist:
if each.ref.__class__.__name__ is not 'Gbobject':
"""Common-noun"""
rst = "a "+str(each)
else:
rst = each
rl.append(rst)
if len(rl) == 1:
for e in rl:
right_subtype = e
#print "rst in e---",right_subtype
else:
plural_r = 1
for e in rl:
if rl.index(e)==0:
sen = str(e)
else:
sen = str(sen)+" and "+str(e)
right_subtype = sen
else:
"""If Rlist is not a list"""
if rst.ref.__class__.__name__ is 'Gbobject':
right_subtype = rst
else:
right_subtype = "a "+str(rst)
#print "right_subtype---",right_subtype
#Core sentence - title
rel = rel_CNL(self, left_subtype, right_subtype, plural_l)
#print rel, "the sentence"
#print left_subtype
#print right_subtype
core_t.extend(rel)
rlex = rel_lex_sentence(self)
adv.extend(rlex)
#print "rlex---",rlex
app_NT = get_app_NT(self)
adv.extend(app_NT)
#print "app_NT",app_NT
st = get_RT_subjecttype(self, left_subtype, right_subtype)
adv.extend(st)
#print "st---",st
#Is symmetrical
if is_symmetrical:
symm = is_symmetrical_RT(self, left_subtype, right_subtype, plural_r)
core_i.extend(symm)
#print "symm---",symm
else:
asymm = is_asymmetrical_RT(self, left_subtype, right_subtype, plural_r)
core_i.extend(asymm)
#print "asymm--",asymm
#Is reflexive
if is_reflexive:
if detail_level == 1 or plural_l == 1:
st = right_subtype
else:
st = left_subtype
is_refl = is_reflexive_sentence(self, st)
core.extend(is_refl)
reflexive.extend(is_refl)
#print "is_refl" ,is_refl
if detail_level==0:
#Title,Reflexive
for e in core_t:
a = e
reflexive.insert(0, a)
return reflexive
elif detail_level==1:
#Inverse,reflexive
for e in core_i:
a = e
reflexive.insert(0,a)
return reflexive
elif detail_level==2:
#Title, Inverse & Reflexive
core.extend(core_t)
core.extend(core_i)
core.extend(reflexive)
return core
elif detail_level==3:
#Return advanced grammatical information
return adv
elif detail_level==4:
#Return all info - Core & Advanced Info
newlist = []
newlist.extend(core)
newlist.extend(adv)
return newlist
def rel_CNL(self, left_subtype, right_subtype, plural_l):
"""To generate sentence for relation"""
title = self.title
title_slug = slugify(title)
if self.ref.__class__.__name__ is 'Relationtype':
rel = []
if istv_title(self):
st = str(left_subtype)+" "+str(title).lower()+" "+str(right_subtype)+"."
else:
if plural_l == 0:
st = str(left_subtype)+" is "+str(title).lower()+" "+str(right_subtype)+"."
elif plural_l == 1:
st = str(left_subtype)+" are "+str(title).lower()+" "+str(right_subtype)+"."
rel.append(st.capitalize())
return rel
def is_reflexive_sentence(self, st):
refl = []
title = self.title
title_slug = slugify(title)
if istv_title(self):
j= "It is a reflexive sentence. "+str(st).title()+" "+str(title)+" "+str(st)+"."
else:
j= "It is a reflexive sentence. "+str(st).title()+" is "+str(title)+" "+str(st)+"."
refl.append(j)
return refl
def is_symmetrical_RT(self, left_subtype, right_subtype, plural_r):
"""Generates CNL Sentence for Relation/RT if symmetrical"""
symm = []
title = self.title
title_slug = slugify(title)
if istv_title(self):
g = str(right_subtype).title()+" "+str(title)+" "+str(left_subtype).title()+"."
else:
if plural_r == 0:
g = str(right_subtype).title()+" is "+str(title)+" "+str(left_subtype).title()+"."
else:
g = str(right_subtype).title()+" are "+str(title)+" "+str(left_subtype).title()+"."
symm.append(g.capitalize())
return symm
def is_asymmetrical_RT(self, left_subtype, right_subtype, plural_r):
"""Generates CNL Sentence for Relation/RT if symmetrical"""
asymm = []
inverse = self.inverse
inverse_slug = slugify(inverse)
if istv_inverse(self):
g = str(right_subtype).title()+" "+str(inverse)+" "+str(left_subtype).title()+"."
else:
if plural_r == 0:
g = str(right_subtype).title()+" is "+str(inverse)+" "+str(left_subtype).title()+"."
elif plural_r == 1:
g = str(right_subtype).title()+" is "+str(inverse)+" "+str(left_subtype).title()+"."
asymm.append(g.capitalize())
return asymm
def rel_lex_sentence(self):
"""Generates RT's title & inverse sentence"""
if self.ref.__class__.__name__ is 'Relationtype':
rlex = []
title=self.title
title_slug=slugify(title)
inverse=self.inverse
inverse_slug=slugify(inverse)
h="A relation_type's title is "+str(title_slug)+"."
rlex.append(h.capitalize())
if (title==inverse):
b="Its title and its inverse are equal."
else:
b="Its inverse is "+str(inverse_slug)+"."
rlex.append(b.capitalize())
return rlex
def get_app_NT(self):
"""Generates CNL Sentences for left & right applicable NT for RT"""
if self.ref.__class__.__name__ is 'Relationtype':
a = []
l_app = self.left_applicable_nodetypes
r_app=self.right_applicable_nodetypes
e = "Its left_applicable_nodetype is "+str(l_app).upper()+"."
a.append(e)
f = "Its right_applicable_nodetype is "+str(r_app).upper()+"."
a.append(f)
return a
def get_RT_sentence(self):
#Generates CNL Sentences in RT
if self.ref.__class__.__name__ is 'Relationtype':
sentence = get_CNL_sentence_RT(self, self.left_subjecttype, self.right_subjecttype, 4)
return sentence
#Generates CNL sentences in Relation
elif self.ref.__class__.__name__ is 'Relation':
sentence = get_CNL_sentence_RT(self.relationtype, self.left_subject, self.right_subject, 4)
return sentence
else:
pass
def get_rel(self):
if not self.ref.__class__.__name__ is 'Objecttype':
pass
else:
sen = []
sentence = []
lr = Relation.objects.filter(left_subject = self.id)
rr = Relation.objects.filter(right_subject = self.id)
if lr:
"""List which stores each right subject"""
lst = get_list_relation(self, 0)
#print "LR",lst
for k,v in lst.iteritems():
rel = Relationtype.objects.filter(title = k)
val = v
for rt in rel:
sen = get_CNL_sentence_RT(rt, self, val, 0)
#print "sen----lr",sen
sentence.extend(sen)
#print "sentence lr",sentence
if rr:
"""List which stores each left subject"""
lst = get_list_relation(self, 1)
#print "RR",lst
for k,v in lst.iteritems():
rel = Relationtype.objects.filter(inverse = k)
val = v
#print "rel ",rel
#print "v ",v
for rt in rel:
sen = get_CNL_sentence_RT(rt, val, self, 1)
#print sen,"sen"
sentence.extend(sen)
return sentence
def get_RT_subjecttype(self,lst,rst):
"""Returns CNL sentence of left & right subject type of RT"""
if self.ref.__class__.__name__ is 'Relationtype':
left_subtype = lst
right_subtype = rst
st = []
ce = "Its left_subjecttype is "+str(left_subtype)+"."
c = ce.capitalize()
st.append(c)
de = "Its right_subjecttype is "+str(right_subtype)+"."
d = de.capitalize()
st.append(d)
return st
else:
pass
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