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# -*- coding: utf-8 -*-
#
import uuid
from django.db import models, transaction
from django.db.models import Q
from django.utils.translation import ugettext_lazy as _
from django.core.cache import cache
from orgs.mixins import OrgModelMixin
from orgs.utils import set_current_org, get_current_org
from orgs.models import Organization
__all__ = ['Node']
class Node(OrgModelMixin):
id = models.UUIDField(default=uuid.uuid4, primary_key=True)
key = models.CharField(unique=True, max_length=64, verbose_name=_("Key")) # '1:1:1:1'
value = models.CharField(max_length=128, verbose_name=_("Value"))
child_mark = models.IntegerField(default=0)
date_create = models.DateTimeField(auto_now_add=True)
is_node = True
_full_value_cache_key_prefix = '_NODE_VALUE_{}'
class Meta:
verbose_name = _("Node")
def __str__(self):
return self.full_value
def __eq__(self, other):
if not other:
return False
return self.key == other.key
def __gt__(self, other):
if self.is_root():
return True
self_key = [int(k) for k in self.key.split(':')]
other_key = [int(k) for k in other.key.split(':')]
return self_key.__lt__(other_key)
def __lt__(self, other):
return not self.__gt__(other)
@property
def name(self):
return self.value
@property
def full_value(self):
key = self._full_value_cache_key_prefix.format(self.key)
cached = cache.get(key)
if cached:
return cached
value = self.get_full_value()
self.cache_full_value(value)
return value
def get_full_value(self):
# ancestor = [a.value for a in self.get_ancestor(with_self=True)]
if self.is_root():
return self.value
parent_full_value = self.parent.full_value
value = parent_full_value + ' / ' + self.value
return value
def cache_full_value(self, value):
key = self._full_value_cache_key_prefix.format(self.key)
cache.set(key, value, 3600)
def expire_full_value(self):
key = self._full_value_cache_key_prefix.format(self.key)
cache.delete_pattern(key+'*')
@property
def level(self):
return len(self.key.split(':'))
def get_next_child_key(self):
mark = self.child_mark
self.child_mark += 1
self.save()
return "{}:{}".format(self.key, mark)
def create_child(self, value):
with transaction.atomic():
child_key = self.get_next_child_key()
child = self.__class__.objects.create(key=child_key, value=value)
return child
def get_children(self, with_self=False):
pattern = r'^{0}$|^{0}:[0-9]+$' if with_self else r'^{0}:[0-9]+$'
return self.__class__.objects.filter(
key__regex=pattern.format(self.key)
)
def get_all_children(self, with_self=False):
pattern = r'^{0}$|^{0}:' if with_self else r'^{0}'
return self.__class__.objects.filter(
key__regex=pattern.format(self.key)
)
def get_sibling(self, with_self=False):
key = ':'.join(self.key.split(':')[:-1])
pattern = r'^{}:[0-9]+$'.format(key)
sibling = self.__class__.objects.filter(
key__regex=pattern.format(self.key)
)
if not with_self:
sibling = sibling.exclude(key=self.key)
return sibling
def get_family(self):
ancestor = self.get_ancestor()
children = self.get_all_children()
return [*tuple(ancestor), self, *tuple(children)]
def get_assets(self):
from .asset import Asset
if self.is_default_node():
assets = Asset.objects.filter(Q(nodes__id=self.id) | Q(nodes__isnull=True))
else:
assets = Asset.objects.filter(nodes__id=self.id)
return assets.distinct()
def get_valid_assets(self):
return self.get_assets().valid()
def get_all_assets(self):
from .asset import Asset
pattern = r'^{0}$|^{0}:'.format(self.key)
args = []
kwargs = {}
if self.is_default_node():
args.append(Q(nodes__key__regex=pattern) | Q(nodes=None))
else:
kwargs['nodes__key__regex'] = pattern
assets = Asset.objects.filter(*args, **kwargs).distinct()
return assets
def get_all_valid_assets(self):
return self.get_all_assets().valid()
def is_default_node(self):
return self.is_root() and self.key == '0'
def is_root(self):
if self.key.isdigit():
return True
else:
return False
@property
def parent_key(self):
parent_key = ":".join(self.key.split(":")[:-1])
return parent_key
@property
def parent(self):
if self.is_root():
return self
try:
parent = self.__class__.objects.get(key=self.parent_key)
return parent
except Node.DoesNotExist:
return self.__class__.root()
@parent.setter
def parent(self, parent):
if not self.is_node:
self.key = parent.key + ':fake'
return
children = self.get_all_children()
old_key = self.key
with transaction.atomic():
self.key = parent.get_next_child_key()
for child in children:
child.key = child.key.replace(old_key, self.key, 1)
child.save()
self.save()
def get_ancestor(self, with_self=False):
if self.is_root():
root = self.__class__.root()
return [root]
_key = self.key.split(':')
if not with_self:
_key.pop()
ancestor_keys = []
for i in range(len(_key)):
ancestor_keys.append(':'.join(_key))
_key.pop()
ancestor = self.__class__.objects.filter(
key__in=ancestor_keys
).order_by('key')
return ancestor
@classmethod
def create_root_node(cls):
# 如果使用current_org 在set_current_org时会死循环
_current_org = get_current_org()
with transaction.atomic():
if _current_org.is_root():
key = '0'
elif _current_org.is_default():
key = '1'
else:
set_current_org(Organization.root())
org_nodes_roots = cls.objects.filter(key__regex=r'^[0-9]+$')
org_nodes_roots_keys = org_nodes_roots.values_list('key', flat=True) or ['1']
key = max([int(k) for k in org_nodes_roots_keys])
key = str(key + 1) if key != 0 else '2'
set_current_org(_current_org)
root = cls.objects.create(key=key, value=_current_org.name)
return root
@classmethod
def root(cls):
root = cls.objects.filter(key__regex=r'^[0-9]+$')
if root:
return root[0]
else:
return cls.create_root_node()
@classmethod
def default_node(cls):
defaults = {'value': 'Default'}
return cls.objects.get_or_create(defaults=defaults, key='1')
@classmethod
def get_tree_name_ref(cls):
pass
@classmethod
def generate_fake(cls, count=100):
import random
for i in range(count):
node = random.choice(cls.objects.all())
node.create_child('Node {}'.format(i))