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|
# Copyright (c) 2011, 2012 Free Software Foundation
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as
# published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
# This project incorporates work covered by the following copyright and permission notice:
# Copyright (c) 2009, Julien Fache
# All rights reserved.
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions
# are met:
# * Redistributions of source code must retain the above copyright
# notice, this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above copyright
# notice, this list of conditions and the following disclaimer in
# the documentation and/or other materials provided with the
# distribution.
# * Neither the name of the author nor the names of other
# contributors may be used to endorse or promote products derived
# from this software without specific prior written permission.
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
# FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
# COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
# (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
# SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
# HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
# STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
# OF THE POSSIBILITY OF SUCH DAMAGE.
# Copyright (c) 2011, 2012 Free Software Foundation
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as
# published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Affero General Public License for more details.
# You should have received a copy of the GNU Affero General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
"""Super models of Gstudio """
import warnings
from datetime import datetime
from django.db import models
from django.db.models import Q
from django.utils.html import strip_tags
from django.utils.html import linebreaks
from django.contrib.auth.models import User
from django.contrib.sites.models import Site
from django.db.models.signals import post_save
from django.utils.importlib import import_module
from django.contrib import comments
from django.contrib.comments.models import CommentFlag
from django.contrib.comments.moderation import moderator
from django.utils.translation import ugettext_lazy as _
from django.contrib.markup.templatetags.markup import markdown
from django.contrib.markup.templatetags.markup import textile
from django.contrib.markup.templatetags.markup import restructuredtext
import mptt
from djangoratings.fields import RatingField
from tagging.fields import TagField
from gstudio.settings import UPLOAD_TO
from gstudio.settings import MARKUP_LANGUAGE
from gstudio.settings import NODETYPE_TEMPLATES
from gstudio.settings import NODETYPE_BASE_MODEL
from gstudio.settings import MARKDOWN_EXTENSIONS
from gstudio.settings import AUTO_CLOSE_COMMENTS_AFTER
from gstudio.managers import nodetypes_published
from gstudio.managers import NodetypePublishedManager
from gstudio.managers import NodePublishedManager
from gstudio.managers import AuthorPublishedManager
from gstudio.managers import DRAFT, HIDDEN, PUBLISHED
from gstudio.moderator import NodetypeCommentModerator
from gstudio.url_shortener import get_url_shortener
from gstudio.signals import ping_directories_handler
from gstudio.signals import ping_external_urls_handler
import json
import reversion
from reversion.models import Version
from django.core import serializers
NODETYPE_CHOICES = (
('ND', 'Nodes'),
( 'OB' ,'Objects'),
('ED', 'Edges'),
('NT', 'Node types'),
('ET', 'Edge types'),
('OT', 'Object types'),
('RT', 'Relation types'),
('MT', 'Metatypes'),
('AT', 'Attribute types'),
('RN', 'Relations'),
('AS', 'Attributes'),
('ST', 'System type'),
('SY', 'System'),
('NS', 'Node specification'),
('AS', 'Attribute specification'),
('RS', 'Relation specification'),
('IN', 'Intersection'),
('CP', 'Complement'),
('UN', 'Union'),
)
DEPTYPE_CHOICES = (
('0', 'Concept-Concept'),
('1', 'Activity-Activity'),
('2', 'Question-Question'),
('3', 'Concept-Activity'),
('4', 'Activity-Concept'),
('5', 'Question-Concept'),
('6', 'Concept-Question'),
('7', 'Question-Activity'),
('8', 'Activity-Question'),
)
FIELD_TYPE_CHOICES = (
('1', 'CharField'),
('2', 'TextField'),
('3', 'IntegerField'),
('4', 'CommaSeparatedIntegerField'),
('5', 'BigIntegerField'),
('6', 'PositiveIntegerField'),
('7', 'DecimalField'),
('8', 'FloatField'),
('9', 'BooleanField'),
('10', 'NullBooleanField'),
('11', 'DateField'),
('12', 'DateTimeField'),
('13', 'TimeField'),
('14', 'EmailField'),
('15', 'FileField'),
('16', 'FilePathField'),
('17', 'ImageField'),
('18', 'URLField'),
('19', 'IPAddressField'),
)
STATUS_CHOICES = ((DRAFT, _('draft')),
(HIDDEN, _('hidden')),
(PUBLISHED, _('published')))
class Author(User):
"""Proxy Model around User"""
objects = models.Manager()
published = AuthorPublishedManager()
def nodetypes_published(self):
"""Return only the nodetypes published"""
return nodetypes_published(self.nodetypes)
@property
def title(self):
return self.username
@models.permalink
def get_absolute_url(self):
"""Return author's URL"""
#return "/authors/%s/" %(self.username)
return ('gstudio_author_detail', (self.username,))
class Meta:
"""Author's Meta"""
proxy = True
class NID(models.Model):
"""the set of all nodes. provides node ID (NID) to all nodes in
the network, including edges. Edges are also first class citizens
in the gnowledge base. """
title = models.CharField(_('title'), help_text=_('give a name to the node'), max_length=255)
last_update = models.DateTimeField(_('last update'), default=datetime.now)
creation_date = models.DateTimeField(_('creation date'),
default=datetime.now)
slug = models.SlugField(help_text=_('used for publication'),
unique_for_date='creation_date',
max_length=255)
@property
def get_revisioncount(self):
"""
Returns Number of Version
"""
i=0
ver=Version.objects.get_for_object(self)
for each in ver:
i=i+1
return i
@property
def get_version_list(self):
"""
Returns Version list
"""
ver=Version.objects.get_for_object(self)
return ver
@property
def get_ssid(self):
"""
return snapshot ids (revision id).
returns a list.
"""
slist=[]
vlist=self.get_version_list
for each in vlist:
slist.append(each.id)
return slist
def version_info(self,ssid):
version_object=Version.objects.get(id=ssid)
return version_object.field_dict
def get_serialized_dict(self):
"""
return the fields in a serialized form of the current object using the __dict__ function.
"""
return self.__dict__
@models.permalink
def get_absolute_url(self):
"""Return nodetype's URL"""
return ('gstudio_nodetype_detail', (), {
'year': self.creation_date.strftime('%Y'),
'month': self.creation_date.strftime('%m'),
'day': self.creation_date.strftime('%d'),
'slug': self.slug})
@property
def ref(self):
"""
Returns the object reference the id belongs to.
"""
try:
"""
ALGO: get object id, go to version model, return for the given id.
"""
# Retrieving only the relevant tupleset for the versioned objects
vrs = Version.objects.filter(type=0 , object_id=self.id)
# Returned value is a list, so splice it.
vrs = vrs[0]
except:
return None
return vrs.object
@property
def get_edit_url(self):
return "/admin/" + self._meta.app_label + "/" + self._meta.module_name + "/" + str(self.id)
def get_serialized_data(self):
"""
return the fields in a serialized form of the current object.
get object id, go to version model, return serialized_data for the given id
"""
from reversion.models import Version
version = Version.objects.get(id=self.id)
return version.serialized_data
def get_Version_graph_json(self,ssid):
# # predicate_id={"plural":"a1","altnames":"a2","contains_members":"a3","contains_subtypes":"a4","prior_nodes":"a5", "posterior_nodes":"a6"}
# slist=self.get_ssid
ver_dict=self.version_info(ssid)
g_json = {}
g_json["node_metadata"]= []
predicate_id = {}
counter = 1
for key in ver_dict.keys():
val = "a" + str(counter)
predicate_id[key] = val
counter = counter + 1
#print predicate_id
attr_counter = -1
this_node = {"_id":str(ver_dict['id']),"title":ver_dict['title'],"screen_name":ver_dict['title'], "url":self.get_absolute_url()}
g_json["node_metadata"].append(this_node)
for key in predicate_id.keys():
if ver_dict[key]:
try:
g_json[str(key)]=[]
g_json["node_metadata"].append({"_id":str(predicate_id[key]),"screen_name":key})
g_json[str(key)].append({"from":self.id , "to":predicate_id[key],"value":1, "level":1 })
if not isinstance(ver_dict[key],basestring):
for item in ver_dict[key]:
# user
g_json["node_metadata"].append({"_id":str(item.id),"screen_name":item.title, "title":item.title, "url":item.get_absolute_url()})
g_json[str(key)].append({"from":predicate_id[key] , "to":item.id ,"value":1 })
else:
#value={nbh["plural"]:"a4",nbh["altnames"]:"a5"}
#this_node[str(key)]=nbh[key] key, nbh[key]
#for item in value.keys():
g_json["node_metadata"].append({"_id":attr_counter,"screen_name":ver_dict[key]})
g_json[str(key)].append({"from":predicate_id[key] , "to":attr_counter ,"value":1, "level":2 })
attr_counter-=1
except:
pass
# print g_json
return json.dumps(g_json)
def __unicode__(self):
return self.title
class Meta:
"""NID's Meta"""
class Node(NID):
"""
Super class
"""
altnames = TagField(_('alternate names'), help_text=_('alternate names if any'), blank=True, null=True)
plural = models.CharField(_('plural name'), help_text=_('plural form of the node name if any'), max_length=255, blank=True, null=True)
rating = RatingField(range=5, can_change_vote = True, help_text=_('your rating'), blank=True, null=True)
status = models.IntegerField(choices=STATUS_CHOICES, default=PUBLISHED)
start_publication = models.DateTimeField(_('start publication'),
help_text=_('date start publish'),
default=datetime.now)
end_publication = models.DateTimeField(_('end publication'),
help_text=_('date end publish'),
default=datetime(2042, 3, 15))
sites = models.ManyToManyField(Site, verbose_name=_('sites publication'),
related_name='nodetypes')
published = NodePublishedManager()
def __unicode__(self):
return self.title
class Meta:
abstract=False
class Edge(NID):
def __unicode__(self):
return self.title
class Meta:
abstract=False
class Metatype(Node):
"""
Metatype object for Nodetype
"""
description = models.TextField(_('description'), blank=True, null=True)
parent = models.ForeignKey('self', null=True, blank=True, verbose_name=_('parent metatype'), related_name='children')
def nodetypes_published(self):
"""
Return only the published nodetypes
"""
return nodetypes_published(self.member_types)
@property
def get_nbh(self):
"""
Returns the neighbourhood of the metatype
"""
nbh = {}
nbh['title'] = self.title
nbh['altnames'] = self.altnames
nbh['plural'] = self.plural
if self.parent:
nbh['typeof'] = self.parent
# generate ids and names of children/members
nbh['contains_subtypes'] = self.children.get_query_set()
nbh['contains_members'] = self.nodetypes.all()
nbh['left_subjecttype_of'] = Relationtype.objects.filter(left_subjecttype=self.id)
nbh['right_subjecttype_of'] = Relationtype.objects.filter(right_subjecttype=self.id)
nbh['attributetypes'] = Attributetype.objects.filter(subjecttype=self.id)
return nbh
@property
def get_possible_attributetypes(self):
"""
Gets the relations possible for this metatype
1. Recursively create a set of all the ancestors i.e. parent/subtypes of the MT.
2. Get all the AT's linked to each ancestor
"""
#Step 1.
ancestor_list = []
this_parent = self.parent
# recursive thru parent field and append
while this_parent:
ancestor_list.append(this_parent)
this_parent = this_parent.parent
#Step 2.
attrtypes = []
for each in ancestor_list:
# retrieve all the AT's from each ancestor
attrtypes.extend(Attributetype.objects.filter(subjecttype=each.id))
return attrtypes
@property
def get_possible_rels(self):
"""
Gets the relations possible for this metatype
1. Recursively create a set of all the ancestors i.e. parent/subtypes of the MT.
2. Get all the R's linked to each ancestor
"""
#Step 1.
ancestor_list = []
this_parent = self.parent
# append
while this_parent:
ancestor_list.append(this_parent)
this_parent = this_parent.parent
#Step 2.
rels = {}
rt_set = Relation.objects.all()
right_subset = []
left_subset = []
for each in ancestor_list:
# retrieve all the RT's from each ancestor
right_subset.extend(rt_set.filter(subject1=each.id))
left_subset.extend(rt_set.filter(subject2=each.id))
rels['possible_leftroles'] = left_subset
rels['possible_rightroles'] = right_subset
return rels
@property
def get_possible_attributes(self):
"""
Gets the relations possible for this metatype
1. Recursively create a set of all the ancestors i.e. parent/subtypes of the MT.
2. Get all the RT's linked to each ancestor
"""
#Step 1.
ancestor_list = []
this_parent = self.parent
# recursive thru parent field and append
while this_parent:
ancestor_list.append(this_parent)
this_parent = this_parent.parent
#Step 2.
attrs = []
for each in ancestor_list:
# retrieve all the AT's from each ancestor
attrs.extend(Attribute.objects.filter(subject=each.id))
return attrs
@property
def get_rendered_nbh(self):
"""
Returns the neighbourhood of the metatype
"""
nbh = {}
nbh['title'] = self.title
nbh['altnames'] = self.altnames
nbh['plural'] = self.plural
if self.parent:
nbh['typeof'] = self.parent
# generate ids and names of children
nbh['contains_subtypes'] = self.children.get_query_set()
contains_members_list = []
for each in self.nodetypes.all():
contains_members_list.append('<a href="%s">%s</a>' % (each.get_absolute_url(), each.title))
nbh['contains_members'] = contains_members_list
nbh['left_subjecttype_of'] = Relationtype.objects.filter(left_subjecttype=self.id)
nbh['right_subjecttype_of'] = Relationtype.objects.filter(right_subjecttype=self.id)
nbh['attributetypes'] = Attributetype.objects.filter(subjecttype=self.id)
return nbh
@property
def tree_path(self):
"""Return metatype's tree path, by its ancestors"""
if self.parent:
return '%s/%s' % (self.parent.tree_path, self.slug)
return self.slug
def __unicode__(self):
return self.title
@property
def composed_sentence(self):
"composes the relation as a sentence in triple format."
if self.parent:
return '%s is a kind of %s' % (self.title, self.parent.tree_path)
return '%s is a root node' % (self.slug)
@models.permalink
def get_absolute_url(self):
"""Return metatype's URL"""
return ('gstudio_metatype_detail', (self.tree_path,))
class Meta:
"""Metatype's Meta"""
ordering = ['title']
verbose_name = _('metatype')
verbose_name_plural = _('metatypes')
class Nodetype(Node):
"""
Model design for publishing nodetypes. Other nodetypes inherit this class.
"""
STATUS_CHOICES = ((DRAFT, _('draft')),
(HIDDEN, _('hidden')),
(PUBLISHED, _('published')))
content = models.TextField(_('content'), null=True, blank=True)
content_org = models.TextField(_('content'), null=True, blank=True)
parent = models.ForeignKey('self', null=True, blank=True,
verbose_name=_('is a kind of'),
related_name='children')
prior_nodes = models.ManyToManyField('self', null=True, blank=True,
verbose_name=_('its meaning depends on '),
related_name='posterior_nodes')
posterior_nodes = models.ManyToManyField('self', null=True, blank=True,
verbose_name=_('required for the meaning of '),
related_name='prior_nodes')
image = models.ImageField(_('image'), upload_to=UPLOAD_TO,
blank=True, help_text=_('used for illustration'))
excerpt = models.TextField(_('excerpt'), blank=True,
help_text=_('optional element'))
tags = TagField(_('tags'))
metatypes = models.ManyToManyField(Metatype, verbose_name=_('member of metatypes'),
related_name='member_types',
blank=True, null=True)
authors = models.ManyToManyField(User, verbose_name=_('authors'),
related_name='nodetypes',
blank=True, null=False)
featured = models.BooleanField(_('featured'), default=False)
comment_enabled = models.BooleanField(_('comment enabled'), default=True)
pingback_enabled = models.BooleanField(_('linkback enabled'), default=True)
login_required = models.BooleanField(
_('login required'), default=False,
help_text=_('only authenticated users can view the nodetype'))
password = models.CharField(
_('password'), max_length=50, blank=True,
help_text=_('protect the nodetype with a password'))
template = models.CharField(
_('template'), max_length=250,
default='gstudio/nodetype_detail.html',
choices=[('gstudio/nodetype_detail.html', _('Default template'))] + \
NODETYPE_TEMPLATES,
help_text=_('template used to display the nodetype'))
rurl=models.URLField(_('rurl'),verify_exists=True,null=True, blank=True)
objects = models.Manager()
published = NodetypePublishedManager()
def get_possible_reltypes(self):
"""
Gets the relations possible for this metatype
1. Recursively create a set of all the ancestors i.e. parent/subtypes of the MT.
2. Get all the RT's linked to each ancestor
"""
#Step 1.
ancestor_list = []
this_parent = self.parent
# append
while this_parent:
ancestor_list.append(this_parent)
this_parent = this_parent.parent
#Step 2.
reltypes = {}
rt_set = Relationtype.objects.all()
right_subset = []
left_subset = []
for each in ancestor_list:
# retrieve all the RT's from each ancestor
right_subset.extend(rt_set.filter(subjecttypeLeft=each.id))
left_subset.extend(rt_set.filter(subjecttypeRight=each.id))
reltypes['possible_leftroles'] = left_subset
reltypes['possible_rightroles'] = right_subset
return reltypes
@property
def get_possible_attributetypes(self):
"""
Gets the relations possible for this metatype
1. Recursively create a set of all the ancestors i.e. parent/subtypes of the MT.
2. Get all the AT's linked to each ancestor
"""
#Step 1.
ancestor_list = []
this_parent = self.parent
# recursive thru parent field and append
while this_parent:
ancestor_list.append(this_parent)
this_parent = this_parent.parent
#Step 2.
attrtypes = []
for each in ancestor_list:
# retrieve all the AT's from each ancestor
attrtypes.extend(Attributetype.objects.filter(subjecttype=each.id))
return attrtypes
@property
def get_possible_rels(self):
"""
Gets the relations possible for this metatype
1. Recursively create a set of all the ancestors i.e. parent/subtypes of the MT.
2. Get all the R's linked to each ancestor
"""
#Step 1.
ancestor_list = []
this_parent = self.parent
# append
while this_parent:
ancestor_list.append(this_parent)
this_parent = this_parent.parent
#Step 2.
rels = {}
rt_set = Relation.objects.all()
right_subset = []
left_subset = []
for each in ancestor_list:
# retrieve all the RT's from each ancestor
right_subset.extend(rt_set.filter(subject1=each.id))
left_subset.extend(rt_set.filter(subject2=each.id))
rels['possible_leftroles'] = left_subset
rels['possible_rightroles'] = right_subset
return rels
@property
def get_possible_attributes(self):
"""
Gets the relations possible for this metatype
1. Recursively create a set of all the ancestors i.e. parent/subtypes of the MT.
2. Get all the RT's linked to each ancestor
"""
#Step 1.
ancestor_list = []
this_parent = self.parent
# recursive thru parent field and append
while this_parent:
ancestor_list.append(this_parent)
this_parent = this_parent.parent
#Step 2.
attrs = []
for each in ancestor_list:
# retrieve all the AT's from each ancestor
attrs.extend(Attribute.objects.filter(subject=each.id))
return attrs
def get_graph_json(self):
# predicate_id={"plural":"a1","altnames":"a2","contains_members":"a3","contains_subtypes":"a4","prior_nodes":"a5", "posterior_nodes":"a6"}
g_json = {}
g_json["node_metadata"]= []
g_json["relations"]=[]
nbh = self.get_nbh
predicate_id = {}
counter = 1
for key in nbh.keys():
val = "a" + str(counter)
predicate_id[key] = val
counter = counter + 1
#print predicate_id
attr_counter = -1
this_node = {"_id":str(self.id),"title":self.title,"screen_name":self.title, "url":self.get_absolute_url()}
g_json["node_metadata"].append(this_node)
for key in predicate_id.keys():
if nbh[key]:
try:
#g_json[str(key)]=[]
#g_json["relations"].append(key)
g_json["node_metadata"].append({"_id":str(predicate_id[key]),"screen_name":key})
#g_json[str(key)].append({"from":self.id , "to":predicate_id[key],"value":1, "level":1 })
g_json["relations"].append({"from":self.id ,"type":str(key),"value":1,"to":predicate_id[key] })
if not isinstance(nbh[key],basestring):
for item in nbh[key]:
#create nodes
g_json["node_metadata"].append({"_id":str(item.id),"screen_name":item.title,"title":self.title, "url":item.get_absolute_url()})
# g_json[str(key)].append({"from":predicate_id[key] , "to":item.id ,"value":1 })
#create links
g_json["relations"].append({"from":predicate_id[key] ,"type":str(key), "value":1,"to":item.id })
else:
#value={nbh["plural"]:"a4",nbh["altnames"]:"a5"}
#this_node[str(key)]=nbh[key] key, nbh[key]
#for item in value.keys():
g_json["node_metadata"].append({"_id":attr_counter,"screen_name":nbh[key]})
#g_json[str(key)].append({"from":predicate_id[key] , "to":attr_counter ,"value":1, "level":2 })
g_json["relations"].append({"from":predicate_id[key] ,"type":str(key) ,"value":1,"to":attr_counter })
attr_counter-=1
except:
pass
#print g_json
return json.dumps(g_json)
@property
def tree_path(self):
"""Return nodetype's tree path, by its ancestors"""
if self.parent:
return '%s/%s' % (self.parent.tree_path, self.slug)
return self.slug
@property
def tree_path_sentence(self):
""" Return the parent of the nodetype in a triple form """
if self.parent:
return '%s is a kind of %s' % (self.title, self.parent.tree_path)
return '%s is a root node' % (self.title)
@property
def html_content(self):
"""Return the content correctly formatted"""
if MARKUP_LANGUAGE == 'markdown':
return markdown(self.content, MARKDOWN_EXTENSIONS)
elif MARKUP_LANGUAGE == 'textile':
return textile(self.content)
elif MARKUP_LANGUAGE == 'restructuredtext':
return restructuredtext(self.content)
elif not '</p>' in self.content:
return linebreaks(self.content)
return self.content
@property
def get_relations(self):
"""
Returns all the relations of the nodetype
"""
relations={}
left_relations=Relation.objects.filter(left_subject=self.id)
if left_relations:
for each in left_relations:
relation=each.relationtype.title
predicate=each.right_subject
relations[relation]=predicate
right_relations=Relation.objects.filter(right_subject=self.id)
if right_relations:
for each in right_relations:
relation=each.relationtype.inverse
predicate=each.left_subject
relations[relation]=predicate
return relations
@property
def get_relations1(self):
"""
Returns all the relations of the nodetype
"""
relations={}
reltype={}
left_relations=Relation.objects.filter(left_subject=self.id)
if left_relations:
for each in left_relations:
relation=each.relationtype.title
predicate=each.right_subject
predicate_values=[]
if reltype:
fl=0
for key,value in reltype.items():
if type(value) <> list:
t=[]
t.append(value)
predicate_values=t
else:
predicate_values=value
if each.relationtype.title==key:
fl=1
predicate_values.append(predicate)
reltype[key]=predicate_values
if fl==0:
predicate_values=predicate
reltype[relation]=predicate_values
else:
predicate_values.append(predicate)
reltype[relation]=predicate_values
relations['lrelations']=reltype
right_relations=Relation.objects.filter(right_subject=self.id)
reltype={}
if right_relations:
for each in right_relations:
relation=each.relationtype.inverse
predicate=each.left_subject
predicate_values=[]
if reltype:
fl=0
for key,value in reltype.items():
if type(value) <> list:
t=[]
t.append(value)
prdicate_values=t
else:
predicate_values=value
if each.relationtype.inverse==key:
fl=1
predicate_values.append(predicate)
reltype[key]=predicate_values
if fl==0:
predicate_values=predicate
reltype[relation]=predicate_values
else:
predicate_values.append(predicate)
reltype[relation]=predicate_values
relations['rrelations']=reltype
return relations
@property
def get_attributes(self):
attributes_dict = {}
all_attributes=self.subject_of.all()
for attributes in all_attributes:
val=[]
atr_key=attributes.attributetype.title
val.append(attributes.svalue)
if attributes_dict:
fl=0
itms=attributes_dict
for key,value in itms.items():
if atr_key in key:
fl=1
if type(value) <> list:
t=[]
t.append(value)
val.extend(t)
else:
val.extend(value)
attributes_dict[atr_key]=val
return attributes_dict
@property
def get_rendered_nbh(self):
"""
Returns the neighbourhood of the nodetype
"""
nbh = {}
nbh['title'] = self.title
nbh['count_title'] = len(nbh['title'])
nbh['altnames'] = self.altnames
nbh['count_altnames'] = len(nbh['altnames'])
nbh['plural'] = self.plural
nbh['count_plural'] = len(nbh['plural'])
#get all MTs
member_of_dict = {}
for each in self.metatypes.all():
member_of_dict[each.title]= each.get_absolute_url()
nbh['member_of_metatypes']=member_of_dict
nbh['count_member_of_metatypes'] = len(nbh['member_of_metatypes'])
typeof={}
parent=self.parent_id
if parent:
typeof[parent] = parent.get_absolute_url()
nbh['type_of']=typeof
nbh['count_type_of'] = len(nbh['type_of'])
#get all subtypes
subtypes={}
for each in Nodetype.objects.filter(parent=self.id):
subtypes[each.title] =each.get_absolute_url()
nbh['contains_subtypes']=subtypes
nbh['count_contains_subtypes'] = len(nbh['contains_subtypes'])
# get all the objects inheriting this OT
contains_members_dict = {}
for each in self.member_objects.all():
contains_members_dict[each.title]= each.get_absolute_url()
nbh['contains_members'] = contains_members_dict
nbh['count_contains_members'] = len(nbh['contains_members'])
#get prior nodes
priornodes_dict = {}
for each in self.prior_nodes.all():
priornodes_dict[each.title]= each.get_absolute_url()
nbh['priornodes'] = priornodes_dict
nbh['count_priornodes'] = len(nbh['priornodes'])
#get posterior nodes
posteriornodes_dict = {}
for each in self.posterior_nodes.all():
posteriornodes_dict[each.title]= each.get_absolute_url()
nbh['posteriornodes'] = posteriornodes_dict
nbh['count_posteriornodes'] = len(nbh['posteriornodes'])
#get authors
author_dict = {}
for each in self.authors.all():
author_dict['User'] = each.get_absolute_url()
nbh['authors'] = author_dict
#get siblings
siblings={}
for each in self.get_siblings():
siblings[each.title]=each.get_absolute_url()
nbh['siblings']=siblings
nbh['count_siblings'] = len(nbh['siblings'])
#get Relations
relns={}
rellft={}
relrgt={}
if self.get_relations1:
NTrelns=self.get_relations1
for key,value in NTrelns.items():
if key=="rrelations":
relrgt={}
for rgtkey,rgtvalue in value.items():
relnvalue={}
if isinstance(rgtvalue,list):
for items in rgtvalue:
relnvalue[items]=items.get_absolute_url()
else:
relnvalue[rgtvalue]=rgtvalue.get_absolute_url()
relrgt[rgtkey]=relnvalue
else:
rellft={}
relns['left']=rellft
for lftkey,lftvalue in value.items():
relnvalue={}
if isinstance(lftvalue,list):
for items in lftvalue:
relnvalue[items]=items.get_absolute_url()
else:
relnvalue[lftvalue]=lftvalue.get_absolute_url()
rellft[lftkey]=relnvalue
nbh['relations']=relrgt
nbh['relations'].update(rellft)
nbh['count_relations'] = len(nbh['relations'])
#get Attributes
attributes =self.get_attributes
nbh['attributes']=attributes
nbh['count_attributes'] = len(nbh['attributes'])
#get ATs
attributetypes={}
for each in self.subjecttype_of.all():
attributetypes[each.title]=each.get_absolute_url()
nbh['ats']=attributetypes
#get RTs as leftroles and rightroles
leftroles = {}
for each in self.left_subjecttype_of.all():
leftroles[each.title]=each.get_absolute_url()
nbh['leftroles']=leftroles
nbh['count_leftroles'] = len(nbh['leftroles'])
rightroles = {}
for each in self.right_subjecttype_of.all():
rightroles[each.title]=each.get_absolute_url()
nbh['rightroles']=rightroles
nbh['count_rightroles'] = len(nbh['rightroles'])
return nbh
@property
def previous_nodetype(self):
"""Return the previous nodetype"""
nodetypes = Nodetype.published.filter(
creation_date__lt=self.creation_date)[:1]
if nodetypes:
return nodetypes[0]
@property
def next_nodetype(self):
"""Return the next nodetype"""
nodetypes = Nodetype.published.filter(
creation_date__gt=self.creation_date).order_by('creation_date')[:1]
if nodetypes:
return nodetypes[0]
@property
def word_count(self):
"""Count the words of a nodetype"""
return len(strip_tags(self.html_content).split())
@property
def is_actual(self):
"""Check if a nodetype is within publication period"""
now = datetime.now()
return now >= self.start_publication and now < self.end_publication
@property
def is_visible(self):
"""Check if a nodetype is visible on site"""
return self.is_actual and self.status == PUBLISHED
@property
def related_published(self):
"""Return only related nodetypes published"""
return nodetypes_published(self.related)
@property
def discussions(self):
"""Return published discussions"""
return comments.get_model().objects.for_model(
self).filter(is_public=True)
@property
def comments(self):
"""Return published comments"""
return self.discussions.filter(Q(flags=None) | Q(
flags__flag=CommentFlag.MODERATOR_APPROVAL))
@property
def pingbacks(self):
"""Return published pingbacks"""
return self.discussions.filter(flags__flag='pingback')
@property
def trackbacks(self):
"""Return published trackbacks"""
return self.discussions.filter(flags__flag='trackback')
@property
def comments_are_open(self):
"""Check if comments are open"""
if AUTO_CLOSE_COMMENTS_AFTER and self.comment_enabled:
return (datetime.now() - self.start_publication).days < \
AUTO_CLOSE_COMMENTS_AFTER
return self.comment_enabled
@property
def short_url(self):
"""Return the nodetype's short url"""
return get_url_shortener()(self)
def __unicode__(self):
return self.title
@property
def memberof_sentence(self):
"""Return the metatype of which the nodetype is a member of"""
if self.metatypes.count:
for each in self.metatypes.all():
return '%s is a member of metatype %s' % (self.title, each)
return '%s is not a fully defined name, consider making it a member of a suitable metatype' % (self.title)
@property
def subtypeof_sentence(self):
"composes the relation as a sentence in triple format."
if self.parent:
return '%s is a subtype of %s' % (self.title, self.parent.tree_path)
return '%s is a root node' % (self.title)
composed_sentence = property(subtypeof_sentence)
def subtypeof(self):
"retuns the parent nodetype."
if self.parent:
return '%s' % (self.parent.tree_path)
return None
@models.permalink
def get_absolute_url(self):
"""Return nodetype's URL"""
return ('gstudio_nodetype_detail', (), {
'year': self.creation_date.strftime('%Y'),
'month': self.creation_date.strftime('%m'),
'day': self.creation_date.strftime('%d'),
'slug': self.slug})
def get_version_url(self):
"""Return nodetype's URL"""
return "/nodetypes/display/viewhistory/"
def get_serialized_data(self):
"""
return the fields in a serialized form of the current object.
get object id, go to version model, return serialized_data for the given id
"""
from reversion.models import Version
version = Version.objects.get(id=self.node_ptr_id)
return version.serialized_data
class Meta:
"""Nodetype's Meta"""
ordering = ['-creation_date']
verbose_name = _('node type')
verbose_name_plural = _('node types')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
class Objecttype(Nodetype):
'''
Object class
'''
def __unicode__(self):
return self.title
#def get_graph_json(self):
@property
def get_attributetypes(self):
return self.subjecttype_of.all()
@property
def get_relationtypes(self):
left_relset = self.left_subjecttype_of.all()
right_relset = self.right_subjecttype_of.all()
reltypes = {}
reltypes['left_subjecttype_of']=left_relset
reltypes['right_subjecttype_of']=right_relset
return reltypes
@property
def get_left_subjecttypes(self):
"""
for which relation types does this object become a domain of any relation type
"""
reltypes = []
left_relset = self.left_subjecttype_of.all()
for relationtype in left_relset:
reltypes.append(relationtype)
return reltypes
@property
def get_rightroles(self):
"""
for which relation types does this object become a domain of any relation type
"""
reltypes = []
right_relset = self.right_subjecttype_of.all()
for relationtype in right_relset:
reltypes.append(relationtype)
return reltypes
@property
def get_subjecttypes(self):
"""
for which relation types does this object become a domain of any relation type
"""
subjecttypes = []
attrset = self.subjecttype_of.all()
for subjecttype in attrset:
subjecttypes.append(subjecttype)
return subjecttypes
@property
def member_of_metatypes(self):
"""
returns if the objecttype is a member of the membership in a metatype class
"""
types = []
if self.metatypes.all():
for metatype in self.metatypes.all():
types.append(metatype.title)
return types
@property
def get_members(self):
"""
get members of the object type
"""
members = []
if self.member_objects.all():
for gbobject in self.member_objects.all():
members.append(gbobject)
return members
@property
def get_nbh(self):
"""
Returns the neighbourhood of the nodetype
"""
nbh = {}
nbh['title'] = self.title
nbh['altnames'] = self.altnames
nbh['plural'] = self.plural
nbh['member_of_metatype'] = self.metatypes.all()
# get all the ATs for the objecttype
nbh['subjecttype_of']= self.subjecttype_of.all()
# get all the RTs for the objecttype
nbh.update(self.get_relationtypes)
if self.parent:
nbh['type_of'] = [self.parent]
nbh['contains_subtypes'] = Nodetype.objects.filter(parent=self.id)
# get all the objects inheriting this OT
nbh['contains_members'] = self.member_objects.all()
nbh['prior_nodes'] = self.prior_nodes.all()
nbh['posterior_nodes'] = self.posterior_nodes.all()
nbh['authors'] = self.authors.all()
return nbh
@property
def get_rendered_nbh(self):
"""
Returns the neighbourhood of the nodetype with the hyperlinks of nodes rendered
"""
nbh = {}
nbh['title'] = self.title
nbh['altnames'] = self.altnames
nbh['plural'] = self.plural
member_of_metatypes_list = []
for each in self.metatypes.all():
member_of_metatypes_list.append('<a href="%s">%s</a>' % (each.get_absolute_url(), each.title))
nbh['member_of_metatypes'] = member_of_metatypes_list
attributetypes_list = []
for each in self.get_attributetypes:
attributetypes_list.append('<a href="%s">%s</a>' % (each.get_absolute_url(), each.title))
nbh['attributetypes'] = attributetypes_list
# get all the RTs for the objecttype
reltypes_list = []
for each in self.get_relationtypes:
reltypes_list.append('<a href="%s">%s</a>' % (each.get_absolute_url(), each.title))
nbh['relationtypes'] = reltypes_list
nbh['type_of'] = self.parent
nbh['contains_subtypes'] = Nodetype.objects.filter(parent=self.id)
# get all the objects inheriting this OT
contains_members_list = []
for each in self.gbobjects.all():
contains_members_list.append('<a href="%s">%s</a>' % (each.get_absolute_url(), each.title))
nbh['contains_members'] = contains_members_list
prior_nodes_list = []
for each in self.prior_nodes.all():
prior_nodes_list.append('<a href="%s">%s</a>' % (each.get_absolute_url(), each.title))
nbh['prior_nodes'] = prior_nodes_list
posterior_nodes_list = []
for each in self.posterior_nodes.all():
posterior_nodes_list.append('<a href="%s">%s</a>' % (each.get_absolute_url(), each.title))
nbh['posterior_nodes'] = posterior_nodes_list
author_list = []
for each in self.authors.all():
author_list.append('<a href="%s"></a>' % (each.get_absolute_url()))
nbh['authors'] = author_list
return nbh
class Meta:
"""
object type's meta class
"""
verbose_name = _('object type')
verbose_name_plural = _('object types')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
class Relationtype(Nodetype):
'''
Properties with left and right subjects (Binary relations) are defined in this class.
'''
inverse = models.CharField(_('inverse name'), help_text=_('when subjecttypes are interchanged, what should be the name of the relation type? This is mandatory field. If the relation is symmetric, same name will do.'), max_length=255,db_index=True )
left_subjecttype = models.ForeignKey(NID,related_name="left_subjecttype_of", verbose_name='left role')
left_applicable_nodetypes = models.CharField(max_length=2,choices=NODETYPE_CHOICES,default='OT', verbose_name='Node types for left role')
left_cardinality = models.IntegerField(null=True, blank=True, verbose_name='cardinality for the left role')
right_subjecttype = models.ForeignKey(NID,related_name="right_subjecttype_of", verbose_name='right role')
right_applicable_nodetypes = models.CharField(max_length=2,choices=NODETYPE_CHOICES,default='OT', verbose_name='Node types for right role')
right_cardinality = models.IntegerField(null=True, blank=True, verbose_name='cardinality for the right role')
is_symmetrical = models.NullBooleanField(verbose_name='Is symmetrical?')
is_reflexive = models.NullBooleanField(verbose_name='Is reflexive?')
is_transitive = models.NullBooleanField(verbose_name='Is transitive?')
def get_serialized_data(self):
"""
return the fields in a serialized form of the current object.
get object id, go to version model, return serialized_data for the given id
"""
from reversion.models import Version
version = Version.objects.get(id=self.node_ptr_id)
return version.serialized_data
def __unicode__(self):
return self.title
class Meta:
"""
relation type's meta class
"""
verbose_name = _('relation type')
verbose_name_plural = _('relation types')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
class Attributetype(Nodetype):
'''
To define attributes of objects. First three fields are mandatory.
The rest of the fields may be required depending on what type of
field is selected for datatype.
'''
subjecttype = models.ForeignKey(NID, related_name="subjecttype_of", verbose_name='subject type name')
applicable_nodetypes = models.CharField(max_length=2,choices=NODETYPE_CHOICES,default='OT', verbose_name='applicable nodetypes')
dataType = models.CharField(max_length=2, choices=FIELD_TYPE_CHOICES,default='01', verbose_name='data type of value')
verbose_name = models.CharField(max_length=500, null=True, blank=True, verbose_name='verbosename', help_text='verbose name')
null = models.NullBooleanField(verbose_name='Null', help_text='can the value be null?')
blank = models.NullBooleanField(verbose_name='Blank', help_text='can the form be left blank?')
help_text = models.CharField(max_length=500, null=True, blank=True, verbose_name='Help text', help_text='help text for the field')
max_digits = models.IntegerField(max_length=5, null=True, blank=True, verbose_name='Max digit', help_text='If you have selected Decimal Field for datatype, you have to specify the number of digits.')
decimal_places = models.IntegerField(max_length=2, null=True, blank=True, verbose_name='Decimal places', help_text='If you have selected Decimal Field for datatype, you have to specify the decimal places.')
auto_now = models.NullBooleanField(verbose_name='Auto now', null=True, blank=True, help_text='Use this if DateTime & Time Field was chosen above for datatype')
auto_now_add = models.NullBooleanField(verbose_name='Auto now add', null=True, blank=True, help_text='Use this if DateTime & Time Field was chosen above for datatype')
upload_to = models.CharField(max_length=500,verbose_name='Upload to', null=True, blank=True, help_text='Required for FileField and ImageField')
path=models.CharField(max_length=500,verbose_name='Path', null=True, blank=True, help_text='Required for FilePathField')
verify_exists=models.NullBooleanField(verbose_name='Verify exits', null=True, blank=True, help_text='Required for AttributeURLField')
min_length=models.IntegerField(max_length=10,null=True, blank=True, verbose_name='min length', help_text='minimum length')
required=models.NullBooleanField(verbose_name='required', null=True, blank=True, help_text='Use this for setting mandatory and optional fields')
label=models.CharField(max_length=500, null=True,blank=True,verbose_name='label',help_text='specify the "human-friendly" label')
unique=models.NullBooleanField(verbose_name='unique', null=True, blank=True, help_text='If True, this field must be unique throughout the table')
validators=models.ManyToManyField('self', verbose_name='validators',blank=True, null=True,help_text='A list of validators to run for this field')
default=models.CharField(max_length=500, null=True, blank=True, verbose_name='default', help_text='The default value for the field')
editable=models.NullBooleanField(verbose_name='required', null=True, blank=True, help_text='If False, the field will not be editable')
def __unicode__(self):
return self.title
class Meta:
"""
attribute type's meta class
"""
verbose_name = _('attribute type')
verbose_name_plural = _('attribute types')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
class Relation(Edge):
'''
Relations, instances of relationtypes
'''
left_subject_scope = models.CharField(max_length=50, verbose_name='subject scope or qualification', null=True, blank=True)
left_subject = models.ForeignKey(NID, related_name="left_subject_of", verbose_name='subject name')
relationtype_scope = models.CharField(max_length=50, verbose_name='relation scope or qualification', null=True, blank=True)
relationtype = models.ForeignKey(Relationtype, verbose_name='relation name')
right_subject_scope = models.CharField(max_length=50, verbose_name='object scope or qualification', null=True, blank=True)
right_subject = models.ForeignKey(NID, related_name="right_subject_of", verbose_name='object name')
def ApplicableNodeTypes_filter(self,choice):
nodeslist = []
if choice == 'ED':
nodeslist = Edge.objects.all()
if choice == 'OB':
nodeslist = Objects.objects.all()
if choice == 'ND':
nodeslist = Node.objects.all()
if choice == 'NT':
nodeslist = Nodetype.objects.all()
if choice == 'OT':
nodeslist = Objecttype.objects.all()
if choice == 'RT':
nodeslist = Relationtype.objects.all()
if choice == 'MT':
nodeslist = Metatype.objects.all()
if choice == 'AT':
nodeslist = Attributetype.objects.all()
if choice == 'RN':
nodeslist = Relation.objects.all()
if choice == 'AS':
nodeslist = Attribute.objects.all()
if choice == 'ST':
nodeslist = Systemtype.objects.all()
if choice == 'SY':
nodeslist = System.objects.all()
return nodeslist
class Meta:
unique_together = (('left_subject_scope','left_subject','relationtype_scope', 'relationtype', 'right_subject_scope','right_subject'),)
verbose_name = _('relation')
verbose_name_plural = _('relations')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
def __unicode__(self):
return self.composed_sentence
@property
def composed_sentence(self):
"composes the relation as a sentence in a triple format."
return '%s %s %s %s %s %s' % (self.left_subject_scope, self.left_subject, self.relationtype_scope, self.relationtype, self.right_subject_scope, self.right_subject)
@property
def inversed_sentence(self):
"composes the inverse relation as a sentence in a triple format."
return '%s %s %s %s %s' % (self.objectScope, self.right_subject, self.relationtype.inverse, self.left_subject_scope, self.left_subject )
@property
def key_value(self):
return dict({str(self.relationtype):str(self.right_subject)})
@property
def inverse_key_value(self):
return dict({str(self.relationtype.inverse):str(self.left_subject)})
@property
def relation_sentence(self):
"""Return the relations of the objecttypes"""
if self.relationtype:
# for relation in self.relationtype():
return '%s %s %s' % (self.left_subject,self.relationtype,self.right_subject )
@property
def partial_composition(self):
'''
function that composes the right_subject and relation name, as in "x as a friend", "y as a sibling"
'''
return '%s as a %s' % (self.right_subject, self.relationtype)
class Attribute(Edge):
'''
Attribute value store for default datatype varchar. Subject can be any of the
nodetypes.
'''
subject_scope = models.CharField(max_length=50, verbose_name='subject scope or qualification', null=True, blank=True)
subject = models.ForeignKey(NID, related_name="subject_of", verbose_name='subject name')
attributetype_scope = models.CharField(max_length=50, verbose_name='property scope or qualification', null=True, blank=True)
attributetype = models.ForeignKey(Attributetype, verbose_name='property name')
value_scope = models.CharField(max_length=50, verbose_name='value scope or qualification', null=True, blank=True)
svalue = models.CharField(max_length=100, verbose_name='serialized value')
class Meta:
unique_together = (('subject_scope', 'subject', 'attributetype_scope', 'attributetype', 'value_scope', 'svalue'),)
verbose_name = _('attribute')
verbose_name_plural = _('attributes')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
def subject_filter(self,attr):
"""
returns applicaable selection of nodes for selecting as subject
"""
subjecttype = attr.subjecttype
for each in Objecttype.objects.all():
if attr.subjecttype.id == each.id:
return each.get_members
def __unicode__(self):
return self.composed_attribution
@property
def edge_node_dict(self):
'''
composes the attribution as a name:value pair sentence without the subject.
'''
return dict({str(self.attributetype_scope) + str(self.attributetype): str(self.value_scope)+ str(self.svalue)})
@property
def composed_sentence(self):
'''
composes the attribution as a sentence in a triple format.
'''
return '%s %s has %s %s %s %s' % (self.subject_scope, self.subject, self.attributetype_scope, self.attributetype, self.value_scope, self.svalue)
@property
def composed_attribution(self):
'''
composes a name to the attribute
'''
return 'the %s of %s is %s' % (self.attributetype, self.subject, self.svalue)
@property
def partial_composition(self):
'''
function that composes the value and attribute name, as in "red as color", "4 as length"
'''
return '%s as %s' % (self.svalue, self.attributetype)
def subject_filter(self,attr):
"""
returns applicable selection of nodes for selecting objects
"""
for each in Objecttype.objects.all():
if attr.subjecttype.id == each.id:
return each.get_members
class AttributeCharField(Attribute):
value = models.CharField(max_length=100, verbose_name='string')
def __unicode__(self):
return self.title
class AttributeTextField(Attribute):
value = models.TextField(verbose_name='text')
def __unicode__(self):
return self.title
class AttributeIntegerField(Attribute):
value = models.IntegerField(max_length=100, verbose_name='Integer')
def __unicode__(self):
return self.title
class AttributeCommaSeparatedIntegerField(Attribute):
value = models.CommaSeparatedIntegerField(max_length=100, verbose_name='integers separated by comma')
def __unicode__(self):
return self.title
class AttributeBigIntegerField(Attribute):
value = models.BigIntegerField(max_length=100, verbose_name='big integer')
def __unicode__(self):
return self.title
class AttributePositiveIntegerField(Attribute):
value = models.PositiveIntegerField(max_length=100, verbose_name='positive integer')
def __unicode__(self):
return self.title
class AttributeDecimalField(Attribute):
value = models.DecimalField(max_digits=3, decimal_places=2, verbose_name='decimal')
def __unicode__(self):
return self.title
class AttributeFloatField(Attribute):
value = models.FloatField(max_length=100, verbose_name='number as float')
def __unicode__(self):
return self.title
class AttributeBooleanField(Attribute):
value = models.BooleanField(verbose_name='boolean')
def __unicode__(self):
return self.title
class AttributeNullBooleanField(Attribute):
value = models.NullBooleanField(verbose_name='true false or unknown')
def __unicode__(self):
return self.title
class AttributeDateField(Attribute):
value = models.DateField(max_length=100, verbose_name='date')
def __unicode__(self):
return self.title
class AttributeDateTimeField(Attribute):
value = models.DateTimeField(max_length=100, verbose_name='date time')
def __unicode__(self):
return self.title
class AttributeTimeField(Attribute):
value = models.TimeField(max_length=100, verbose_name='time')
def __unicode__(self):
return self.title
class AttributeEmailField(Attribute):
value = models.CharField(max_length=100,verbose_name='value')
def __unicode__(self):
return self.title
class AttributeFileField(Attribute):
value = models.FileField(upload_to='/media', verbose_name='file')
def __unicode__(self):
return self.title
class AttributeFilePathField(Attribute):
value = models.FilePathField(verbose_name='path of file')
def __unicode__(self):
return self.title
class AttributeImageField(Attribute):
value = models.ImageField(upload_to='/media', verbose_name='image')
def __unicode__(self):
return self.title
class AttributeURLField(Attribute):
value = models.URLField(max_length=100, verbose_name='url')
def __unicode__(self):
return self.title
class AttributeIPAddressField(Attribute):
value = models.IPAddressField(max_length=100, verbose_name='ip address')
def __unicode__(self):
return self.title
class Processtype(Nodetype):
"""
A kind of nodetype for defining processes or events or temporal
objects involving change.
"""
changing_attributetype_set = models.ManyToManyField(Attributetype, null=True, blank=True,
verbose_name=_('attribute set involved in the process'),
related_name=' changing_attributetype_set_of')
changing_relationtype_set = models.ManyToManyField(Relationtype, null=True, blank=True,
verbose_name=_('relation set involved in the process'),
related_name='changing_relationtype_set_of')
def __unicode__(self):
return self.title
class Meta:
verbose_name = _('process type')
verbose_name_plural = _('process types')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
class Systemtype(Nodetype):
"""
class to organize Systems
"""
nodetype_set = models.ManyToManyField(Nodetype, related_name="nodetype_set_of", verbose_name='Possible edges in the system',
blank=True, null=False)
relationtype_set = models.ManyToManyField(Relationtype, related_name="relationtype_set_of", verbose_name='Possible nodetypes in the system',
blank=True, null=False)
attributetype_set = models.ManyToManyField(Attributetype, related_name="attributetype_set_of", verbose_name='systems to be nested in the system',
blank=True, null=False)
metatype_set = models.ManyToManyField(Metatype, related_name="metatype_set_of", verbose_name='Possible edges in the system',
blank=True, null=False)
processtype_set = models.ManyToManyField(Processtype, related_name="processtype_set_of", verbose_name='Possible edges in the system',
blank=True, null=False)
def __unicode__(self):
return self.title
class Meta:
verbose_name = _('system type')
verbose_name_plural = _('system types')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
class AttributeSpecification(Node):
"""
specifying an attribute by a subject to say for example:
population of India, color of a flower etc. These do not yeild a
proposition but a description, which can be used as a subject in
another sentence.
"""
attributetype = models.ForeignKey(Attributetype, verbose_name='property name')
subjects = models.ManyToManyField(NID, related_name="subjects_attrspec_of", verbose_name='subjects')
@property
def composed_subject(self):
'''
composes a name to the attribute
'''
subjects = u''
for each in self.subjects.all():
subjects = subjects + each.title + ' '
return 'the %s of %s' % (self.attributetype, subjects)
def __unicode__(self):
return self.composed_subject
class Meta:
verbose_name = _('attribute specification')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
class RelationSpecification(Node):
"""
specifying a relation with a subject
"""
relationtype = models.ForeignKey(Relationtype, verbose_name='relation name')
subjects = models.ManyToManyField(NID, related_name="subjects_in_relspec", verbose_name='subjects')
@property
def composed_subject(self):
'''
composing an expression with relation name and subject
'''
subjects = u''
for each in self.subjects.all():
subjects = subjects + each.title + ' '
return 'the %s of %s' % (self.relationtype, subjects)
def __unicode__(self):
return self.composed_subject
class Meta:
verbose_name = _('relation specification')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
class NodeSpecification(Node):
"""
A node specified (described) by its relations or attributes or both.
"""
subject = models.ForeignKey(Node, related_name="subject_nodespec", verbose_name='subject name')
relations = models.ManyToManyField(Relation, related_name="relations_in_nodespec", verbose_name='relations used to specify the domain')
attributes = models.ManyToManyField(Attribute, related_name="attributes_in_nodespec", verbose_name='attributes used to specify the domain')
@property
def composed_subject(self):
'''
composing an expression subject and relations
'''
relations = u''
for each in self.relations.all():
relations = relations + each.partial_composition + ', '
attributes = u''
for each in self.attributes.all():
attributes = attributes + each.partial_composition + ', '
return 'the %s with %s, %s' % (self.subject, self.relations, self.attributes)
def __unicode__(self):
return self.composed_subject
class Meta:
verbose_name = _('Node specification')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
class Expression(Node):
"""
Expression constructor
"""
left_term = models.ForeignKey(NID, related_name="left_term_of", verbose_name='left term name')
relationtype = models.ForeignKey(Relationtype, verbose_name='relation name')
right_term = models.ForeignKey(NID, related_name="right_term_of", verbose_name='right term name')
def __unicode__(self):
return self.composed_sentence
@property
def composed_sentence(self):
"composes the relation as a sentence in a triple format."
return '%s %s %s' % (self.left_term, self.relationtype, self.right_term)
class Meta:
unique_together = (('left_term','relationtype','right_term'),)
verbose_name = _('expression')
verbose_name_plural = _('expressionss')
permissions = (('can_view_all', 'Can view all'),
('can_change_author', 'Can change author'), )
class Union(Node):
"""
union of two classes
"""
nodetypes = models.ManyToManyField(Nodetype, related_name = 'union_of', verbose_name='node types for union')
def __unicode__(self):
return self.title
class Complement(Node):
"""
complement of a class
"""
nodetypes = models.ManyToManyField(Nodetype, related_name = 'complement_of', verbose_name='complementary nodes')
def __unicode__(self):
return self.title
class Intersection(Node):
"""
Intersection of classes
"""
nodetypes = models.ManyToManyField(Nodetype, related_name = 'intersection_of', verbose_name='intersection of classes')
def __unicode__(self):
return self.title
reversion.register(NID)
if not reversion.is_registered(Systemtype):
reversion.register(Systemtype)
if not reversion.is_registered(Objecttype):
reversion.register(Objecttype , follow=["nodetype_ptr"])
if not reversion.is_registered(Node):
reversion.register(Node , follow=["nid_ptr"])
if not reversion.is_registered(Edge):
reversion.register(Edge , follow=["nid_ptr"])
if not reversion.is_registered(Processtype):
reversion.register(Processtype, follow=["changing_attributetype_set", "changing_relationtype_set"])
if not reversion.is_registered(Nodetype):
reversion.register(Nodetype, follow=["node_ptr","parent", "metatypes","prior_nodes", "posterior_nodes"])
if not reversion.is_registered(Metatype):
reversion.register(Metatype, follow=["node_ptr","parent"])
if not reversion.is_registered(Relationtype):
reversion.register(Relationtype, follow=["left_subjecttype", "right_subjecttype"])
if not reversion.is_registered(Attributetype):
reversion.register(Attributetype, follow=["subjecttype"])
if not reversion.is_registered(Attribute):
reversion.register(Attribute, follow=["subject", "attributetype"])
if not reversion.is_registered(Relation):
reversion.register(Relation, follow=["left_subject", "right_subject", "relationtype"])
moderator.register(Nodetype, NodetypeCommentModerator)
mptt.register(Metatype, order_insertion_by=['title'])
mptt.register(Nodetype, order_insertion_by=['title'])
mptt.register(Objecttype, order_insertion_by=['title'])
mptt.register(Relationtype, order_insertion_by=['title'])
mptt.register(Attributetype, order_insertion_by=['title'])
mptt.register(Systemtype, order_insertion_by=['title'])
mptt.register(Processtype, order_insertion_by=['title'])
post_save.connect(ping_directories_handler, sender=Nodetype,
dispatch_uid='gstudio.nodetype.post_save.ping_directories')
post_save.connect(ping_external_urls_handler, sender=Nodetype,
dispatch_uid='gstudio.nodetype.post_save.ping_external_urls')
class Peer(User):
"""Subclass for non-human users"""
def __unicode__(self):
return self.ip
ip = models.IPAddressField("Peer's IP address")
pkey = models.CharField(("Peer's public-key"), max_length=255)
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