def test_get_property_should_return_value_for_property_if_already_answered(
        app):
    # Given
    obj_to_save = []
    user = create_user(email='*****@*****.**',
                       username='******',
                       password='******')
    obj_to_save.append(user)
    property_obj = Property()
    property_obj.property_name = 'question_1'
    obj_to_save.append(property_obj)
    BaseObject.check_and_save(*obj_to_save)
    user_property_obj = UserProperty()
    user_property_obj.user_id = user.id
    user_property_obj.property_id = property_obj.id
    user_property_obj.value = float(0.5)
    BaseObject.check_and_save(user_property_obj)

    # When
    property_request = req_with_auth(email='*****@*****.**', password='******') \
        .get(API_URL + '/property')

    # Then
    assert property_request.status_code == 200
    content = property_request.json()
    assert 'question_1' in content
    assert content['question_1'] == 0.5
def test_save_property_set_value_if_property_and_user_property_exist(app):
    # Given
    obj_to_save = []
    user = create_user(email='*****@*****.**',
                       username='******',
                       password='******')
    obj_to_save.append(user)
    property_obj = Property()
    property_obj.property_name = 'question_1'
    obj_to_save.append(property_obj)
    BaseObject.check_and_save(*obj_to_save)

    user_property_obj = UserProperty()
    user_property_obj.user_id = user.id
    user_property_obj.property_id = property_obj.id
    user_property_obj.value = float(12)
    BaseObject.check_and_save(user_property_obj)

    data = dict()
    data['question_1'] = "0.5"

    # When
    property_request = req_with_auth(email='*****@*****.**', password='******') \
        .post(API_URL + '/property', json=data)

    # Then
    assert property_request.status_code == 200

    user_property_obj = UserProperty.query. \
        filter_by(user_id=user.id). \
        filter_by(property_id=property_obj.id). \
        first()

    assert user_property_obj is not None
    assert user_property_obj.value == 0.5
Esempio n. 3
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def get_property(property_id=None):
    from models import Property
    if property_id == None:
        user_id = request.args.get('user_id')
        if user_id == None:
            return Property.get_properties()
        return Property.get_user_properties(user_id)
    if request.method == 'DELETE':
        return Property.delete_property(property_id)
    return Property.get_property(property_id)
Esempio n. 4
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 def setUp(self):
     prop_dict = {
         'year': '2017',
         'address': "13 Drews Ct, SC",
         'property_pin': '4590501053',
         'zip_code': '29403',
         'property_value': '20000',
         'status': 'DEED',
         'acreage': 0
     }
     prop = Property(**prop_dict)
     prop.save()
Esempio n. 5
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 def post(self, **kwargs):
  
   page      = int(self.request.POST['page'])
   newstatus = int(self.request.POST['newstatus'])
   
   keys = []
   for key in self.request.POST:
     if key != 'page' and key != 'newstatus':
       keys.append(key)
   
   properties = []
   for property in Property.get(keys):
     property.status  = newstatus
     property.save(build_index=False)
     
     # Verifico que sean mias las propiedades que voy a borrar del indice
     if str(property.realestate.key()) != self.get_realestate_key():
       self.abort(500)
     
     properties.append(property)
   
   # Salvamos y mandamos a remover del indice
   def savetxn():
     for key in keys:
       taskqueue.add(url=self.url_for('property/update_index'), params={'key': key,'action':'need_remove'}, transactional=True)
   
   db.run_in_transaction(savetxn)
   
   self.set_ok('Las propiedades fueron %s correctamente' % ('recuperadas' if newstatus == Property._NOT_PUBLISHED else 'borradas') )
   return self.redirect_to('property/listpage', page=page)
Esempio n. 6
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    def post(self, this_id=None):

        this_property = Property.get_by_id(normalize_id(this_id))

        if (self.request.get('_method') == 'DELETE'):
            return self.delete()

        data = self.handle_upload()
        result = {'files': data}
        s = simplejson.dumps(result, separators=(',', ':'))

        if this_property.images:
            this_property.images["files"].append(data[0])
        else:
            this_property.images = result
        this_property.put()

        redirect = self.request.get('redirect')
        if redirect:
            return self.redirect(str(
                redirect.replace('%s', urllib.quote(s, ''), 1)
            ))
        if 'application/json' in self.request.headers.get('Accept'):
            self.response.headers['Content-Type'] = 'application/json'
        self.response.write(s)
Esempio n. 7
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def create_property_resource(id):
    resource = Resource.query.filter_by(id=id).first()
    """View for create properties"""
    if request.method == 'POST':

        p_name = request.form['name']
        p_value = request.form['value']
        p_description = request.form['description']
        resource_id = resource.id
        error = None

        if not p_name or not p_value:
            error = 'No mandatory property is set.'

        if error is not None:
            flash(error)
        else:
            try:
                property_d = Property(name=p_name,
                                      value=p_value,
                                      description=p_description,
                                      resource_id=resource_id)
                db.session.add(property_d)
                db.session.commit()
                return redirect(url_for('device.resource_view',
                                        id=resource.id))

            except OSError as e:
                flash("Creation of the directory %s failed" % e)
            except Exception as e:
                flash("DB Creation Failed")

    return render_template('device/create_property.html', resource=resource)
Esempio n. 8
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    def post(self, **kwargs):
        self.request.charset = 'utf-8'

        editing = 'key' in self.request.POST and len(self.request.POST['key'])

        if not self.form.validate():
            kwargs[
                'title'] = 'Editando Propiedad' if editing else 'Nueva Propiedad'
            kwargs['form'] = self.form
            kwargs['key'] = self.request.POST['key'] if editing else None
            kwargs['flash'] = {
                'message': 'Verifique los datos ingresados',
                'type': 'error'
            }
            return self.show_property_form(**kwargs)

        # Actualizo o creo el model
        property = self.mine_or_404(
            self.request.POST['key']) if editing else Property.new(
                db.Key(self.get_realestate_key()))
        self.form.update_object(property)

        # Updateamos y mandamos a rebuild el indice si es necesario
        # Solo lo hacemos si se require y la propiedad esta publicada
        # Si se modifica una propiedad BORRADA o DESACTIVADA no se toca el indice por que no existe
        friend_realestates_keys = property.realestate_friend_keys()

        if not editing:
            if not realestate_can_add_public_property(
                    self.get_realestate_key(), self.plan_max_properties):
                status = Property._NOT_PUBLISHED
            else:
                status = Property._PUBLISHED
                on_public_property_added(self.get_realestate_key())
            property.status = status

        def savetxn():
            result = property.save(
                build_index=True,
                friends=friend_realestates_keys) if editing else property.put(
                    friends=friend_realestates_keys)
            if result != 'nones' and property.status == Property._PUBLISHED:
                taskqueue.add(url=self.url_for('property/update_index'),
                              params={
                                  'key': str(property.key()),
                                  'action': result
                              },
                              transactional=True)

        db.run_in_transaction(savetxn)

        if self.request.POST['goto'] == 'go':
            return self.redirect_to('property/images', key=str(property.key()))

        self.set_ok('La propiedad fue %s ' % (
            'modificada con exito.' if editing else
            u'creada con exito, sera visible en el mapa dentro de la próxima hora.'
        ))
        return self.redirect_to('property/listpage', page=1)
Esempio n. 9
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    def get(self):

        properties = Property.query().fetch()
        self.tv["properties"] = []
        for this_property in properties:
            self.tv["properties"].append(this_property.to_object())

        self.tv["current_page"] = "DASHBOARD"
        self.render('frontend/dashboard.html')
Esempio n. 10
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def add_property(request):
    form = PropertyForm()
    if request.method == 'POST':
        form = PropertyForm(request.POST)
        if form.is_valid():
            property_to_add = Property(form.cleaned_data)
            instance = form.save()
            
    return render_to_response('property/add.html', {'form': form}, context_instance = RequestContext(request))
Esempio n. 11
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def analyze():
    data = request.get_json()
    nlp = spacy.load("en_core_web_md")
    try:
        doc = nlp(data["input"])
        noun = data["noun"]
        verb = data["verb"]
    except KeyError:
        return jsonify({"error": "Wrong data parameters"})
    except TypeError:
        return jsonify({"error": "Wrong data format"})

    elements = []

    for w in doc:
        if "nsubj" in w.dep_:
            concept = Concept(w.text)
            elements.append(concept)
        if "ROOT" == w.dep_:
            property_ = Property(w.text)
            elements.append(property_)
            for w1 in doc:
                # searching for branch verb and auxiliary verb
                if "cc" == w1.dep_ and w1.head.text == property_.name:
                    property_.particle = w1.text
                if "conj" == w1.dep_ and w1.head.text == property_.name:
                    property_.branch = w1.text
                # check if concept exist
                if "nsubj" in w.dep_:
                    property_.concept = w1.text
        if "aux" == w.dep_:
            aspect = Aspect(w.text)
            elements.append(aspect)
        if "auxpass" == w.dep_:
            aspect.particle = w.text
        if "adv" in w.dep_:
            characteristic = Characteristic(w.text)
            elements.append(characteristic)

    visitor = NaturalLanguageTransformer(f"To {verb} {noun},")
    for element in elements:
        element.accept(visitor)

    return jsonify({"result": visitor.body})
def test_get_property_should_return_false_for_property_is_not_answered_already(
        app):
    # Given
    obj_to_save = []
    user = create_user(email='*****@*****.**',
                       username='******',
                       password='******')
    obj_to_save.append(user)
    property_obj = Property()
    property_obj.property_name = 'question_1'
    obj_to_save.append(property_obj)
    BaseObject.check_and_save(*obj_to_save)

    # When
    property_request = req_with_auth(email='*****@*****.**', password='******')\
        .get(API_URL + '/property')

    # Then
    assert property_request.status_code == 200
    content = property_request.json()
    assert 'question_1' in content
Esempio n. 13
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 def get(self, **kwargs):
   if 'key' in kwargs:
     kwargs['title'] = 'Editando Propiedad'
     kwargs['form']  = PropertyForm(obj=self.mine_or_404(kwargs['key']))
   else:
     if len(Property.all().filter('realestate = ',db.Key(self.get_realestate_key())).fetch(10))>=1:
       self.set_error(u'Comuníquese con DirectoDueño si desea publicar más de una propiedad; por correo ([email protected]) o a través del <a href="%s">panel de ayuda</a>.' % self.uri_for('backend/help'))
       return self.redirect_to('property/list')
     kwargs['title'] = 'Nueva Propiedad'
     kwargs['form']  = self.form
   
   return self.show_property_form(**kwargs)
Esempio n. 14
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    def test_read_file_query(self):
        filepath = './data-all.csv'
        reader = csv.DictReader(open(filepath, 'rb'))
        for test_line in list(reader)[0:5]:
            address = test_line['Parcel Address']
            year = test_line['TaxYear']

            location_obj = LocationFinder(address, year, 'SC')
            location_dict = location_obj.getCensusStats()

            property = Property.create(location_dict, test_line)
            self.assertEqual(test_line['Parcel Address'], property.address)
Esempio n. 15
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def new(request):
    if request.method == 'GET':
        query = request.GET['q']
        property = Property()
        property.postcode = query
        return render(request, "leader.html", {'property':property, 'comments':[], 'title':'A property at ' + query})

    elif request.method == 'POST':
        property = Property()
        property.address = request.POST['new_address']
        property.postcode = request.POST['postcode']
        property.description = request.POST['description']
        property.save()
        return HttpResponseRedirect(reverse('reviews:property', args=(property.id,)))
Esempio n. 16
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    def get(self, **kwargs):
        re = get_or_404(kwargs['key'])

        blobs = []
        imgs = []
        props = []

        for img in ImageFile.all().filter('realestate', re.key()):
            blobs.append(img.file.key())
            imgs.append(img.key())

        blobstore.delete(blobs)
        db.delete(imgs)

        props = []
        for prop in Property.all().filter('realestate', re.key()):
            props.append(prop.key())

        db.delete(props)

        pis = []
        for pi in PropertyIndex.all().filter('realestate', re.key()):
            pis.append(pi.key())

        db.delete(pis)

        invs = []
        pays = []
        for inv in Invoice.all().filter('realestate', re.key()):
            invs.append(inv)
            if inv.payment:
                pays.append(inv.payment.key())

        db.delete(invs)
        db.delete(pays)

        usrs = []
        for usr in User.all().filter('realestate', re.key()):
            usrs.append(usr)

        db.delete(usrs)

        mRealEstateFriendship = []
        for fr in RealEstateFriendship.all().filter('realestates',
                                                    str(re.key())):
            mRealEstateFriendship.append(fr)

        db.delete(mRealEstateFriendship)

        re.delete()

        self.response.write('borrado %s' % kwargs['key'])
Esempio n. 17
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def add_property(name, source, url, localization, content, price):
    prop = Property(name=name,
                    source=source,
                    url=url,
                    localization=localization,
                    content=content,
                    price=price)
    try:
        s.add(prop)
        s.commit()
    except Exception, e:
        s.rollback()
        print "[ERROR] Error (%s)" % e
Esempio n. 18
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async def listing(request):
    id = request.path_params['id']

    doc = request.state.db.listingsAndReviews.find_one({'_id': id})

    response = Property(doc['_id'], doc['name'],
                        doc['summary'], doc['address']['street'],
                        str(doc['price']), str(doc['cleaning_fee']),
                        str(doc['accommodates']), doc['images']['picture_url'],
                        doc['amenities'])

    return templates.TemplateResponse('listing.html', {
        'request': request,
        'property': response
    })
Esempio n. 19
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    def getto(self, realestate, **kwargs):
        # Ponemos la pantalla de disabled si esta en NO_PAYMENT
        if realestate.status == RealEstate._NO_PAYMENT or realestate.plan.allow_website == 0:
            return self.render_response('realestate/disabled.html',
                                        realestate=realestate)

        kwargs['realestate'] = realestate
        kwargs['menu_item'] = 'index'
        kwargs['form'] = self.form

        kwargs['properties'] = Property.all().filter(
            ' location_geocells = ',
            RealEstate.get_realestate_sharing_key(
                None, realestate=realestate)).filter(
                    ' status = ', Property._PUBLISHED).fetch(
                        get_props_at_home(realestate.get_web_theme()))

        return self.render_response('realestate/index.html', **kwargs)
Esempio n. 20
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 def sql_dump(self, location, **kwargs):
     """
     returns an Item suitable for adding to the database
     """
     league = self.data.get("league", getattr(self, "league", "Standard"))
     try:
         return Item(
             name=self.name,
             type=self.type,
             x=self.data.get("x", None),
             y=self.data.get("y", None),
             w=self.data["w"],
             h=self.data["h"],
             rarity=self.rarity,
             icon=self.data["icon"],
             num_sockets=self.num_sockets(),
             socket_str=self.socket_str,
             is_identified=self.data["identified"],
             is_corrupted=self.data["corrupted"],
             char_location=self.char_location(),
             full_text=db.func.to_tsvector(self.full_text()),
             league=league,
             mods=[Modifier(**m) for m in self.mods],
             requirements=[Requirement(**r) for r in self.requirements],
             properties=[Property(**p) for p in self.properties],
             socketed_items=[
                 ItemData(x, league=league).sql_dump(location) for x in
                 self.data.get("socketedItems", [])
             ],
             location=location,
             **kwargs
         )
     # show some debugging output
     except:
         raise
         pprint.pprint(self.data)
Esempio n. 21
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    def post(self):
        """ Create a new Experiment (with Treatments and Properties) based on
        the POSTed form data.  The format is as follows:
            exp_name = main Experiment name
            exp_description = main Experiment description
            exp_instructions = Instructions on how to test the treatments to be
                               given to the participants
            exp_device = Which device(s) are allowed for this experiment
            treat##_name = the name of treatment ##
            treat##_prop##_name = the name of a property to be changed for
                                  treatment ##
            treat##_prop##_value = the value that property ## will be set to
                                  for treatment ##
        There can be any number of treatments/properties, but there can be no
        missing values, (ie: a property name without a value) or the creation
        will fail.
        """
        experiment = self.parse()

        if not experiment:
            self.redirect('error')
        else:
            exp = Experiment()
            exp.name = experiment.get('name')
            exp.description = experiment.get('description')
            exp.instructions = experiment.get('instructions')
            exp.device = experiment.get('device')
            exp.owner = experiment.get('owner')
            exp.experiment_type = experiment.get('experiment_type')
            exp.put()

            # Adding each treatment in turn
            for treatment in experiment.get('treatments'):
                t = Treatment(parent=exp.key())
                t.name = treatment.get('name')
                t.put()
                for property in treatment.get('properties'):
                    p = Property(parent=t.key())
                    p.name = property.get('name')
                    p.value = property.get('value')
                    p.put()

            self.redirect('view?exp_key=%s' % exp.key())
Esempio n. 22
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def updateProperty(request):
    form = PropertyForm()
    try:
        if 'owner' not in request.POST:
            crrProp = Property()
        else:
            pid = request.POST.get('owner', '')
            crrProp = Property.objects.get(pk=pid)
    except Property.DoesNotExist:
        return HttpResponse("no prtoperty with this id")
    crrProp.ptype = request.POST['ptype']
    crrProp.location = request.POST['location']
    crrProp.price = request.POST['price']
    crrProp.area = request.POST['area']
    crrProp.nrooms = request.POST['nrooms']
    crrProp.ntoilets = request.POST['ntoilets']
    crrProp.lang = request.POST['long']
    crrProp.latt = request.POST['lat']
    # crrProp.lang = 70
    # crrProp.latt = 40
    SITE_ROOT = path.dirname(path.dirname(path.realpath(__file__)))
    user = Client.objects.get(pk=1)
    crrProp.owner = user
    crrProp.save()

    fname = request.FILES['fileToUpload'].name
    extension = fname.split(".")[-1]

    imgName = str(crrProp.id) + "." + extension
    imgPath = SITE_ROOT + "/aqarmap/static/img/" + imgName
    handle_uploaded_file(request.FILES['fileToUpload'], imgPath)
    # form = ModelFormWithFileField(request.POST, request.FILES)
    # if form.is_valid():
    # 	form.save()
    crrProp.img = imgName
    crrProp.save()

    return render(request, 'add-property.html', {'form': form.as_p()})
Esempio n. 23
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    def post(self):
        newproperty = Property()
        newproperty.title = self.request.get("title").strip()
        newproperty.description = self.request.get("description").strip()
        newproperty.location = self.request.get("location").strip()
        newproperty.sqft = self.request.get("size").strip()
        newproperty.price = self.request.get("price").strip()
        newproperty.kind = self.request.get("type").strip()

        developer_key = ndb.Key("Developer", normalize_id(self.request.get("developer").strip()))
        newproperty.developer = developer_key

        amenities = PROPERTY_AMENITIES.copy()
        new_amenities = PROPERTY_AMENITIES.copy()

        for key, value in amenities.items():
            if self.request.get("amenities_"+key).strip():
                new_val = self.request.get("amenities_"+key).strip()
            else:
                new_val = 0

            new_amenities[key] = new_val

        newproperty.amenities = new_amenities

        newproperty.put()

        self.redirect("/upload/"+ str(newproperty.key.id()))
Esempio n. 24
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def extract():
    if 'email' not in session:
        return redirect(url_for('login'))

    option_list = get_properties()
    option_list2 = list(option_list)
    listofchoices = list(zip(option_list, option_list2))

    propertyform = ExtractForm()
    propertyform.search_property.choices = listofchoices

    useremail = session['email']

    propertyindb = Property.query.with_entities(
        Property.search_property,
        Property.brand_queries).filter_by(email=useremail).all()

    if request.method == 'POST':
        if propertyform.validate() == False:
            flash('Form validation not passed')
            return render_template('extract.html',
                                   form=propertyform,
                                   option_list=option_list)
        else:

            # get the project and API key
            email = session['email']

            propertyindb = Property.query.filter_by(
                search_property=propertyform.search_property.data).first()

            if propertyindb is None:
                # save the keys into database
                newautho = Property(propertyform.search_property.data,
                                    propertyform.brand_queries.data, email)
                db.session.add(newautho)
                db.session.commit()
            else:
                propertyindb.brand_queries = propertyform.brand_queries.data
                db.session.commit()

            # get the web property, start and end dates from form
            property_uri = propertyform.search_property.data
            start_date = propertyform.start_date.data
            end_date = propertyform.end_date.data

            # generate a request to searchanalytics to extract data
            query_response = generate_request(property_uri, start_date,
                                              end_date)

            if query_response:
                flash(query_response)

            propertyindb = Property.query.with_entities(
                Property.search_property,
                Property.brand_queries).filter_by(email=useremail).all()

            # return those results
            return render_template('extract.html',
                                   form=propertyform,
                                   option_list=option_list,
                                   query_response=query_response,
                                   branded_queries=propertyindb)

    elif request.method == 'GET':
        return render_template("extract.html",
                               form=propertyform,
                               option_list=option_list,
                               branded_queries=propertyindb)
Esempio n. 25
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def get_or_create_compound(smiles, clean=False, inchi_standard=False):
	"""
	Will return the compound object if found
	in the database or will create a new one
	and return it. Also returned a boolean 
	indicating whether or not it was created.
	If more than one Compound object returned,
	an exception is raised.
	If clean=True, input SMILES will be desalted and
	neutralized.
	If inchi_standard=True, INCHI will be used to determine
	if a compounds already exists in the databases. Since
	the standard INCHI canonicalized tautomers, you will see
	collisions between tautomers such as E/Z imines.
	"""
	config.do_chiral_sss = True
	if clean:
		smiles = desalt_neutralize(smiles, return_smiles=True)
	compounds = Compound.objects.filter(molecule__exact=smiles)
	if not compounds or len(compounds) == 0:
		mol = Chem.MolFromSmiles(smiles)
		inchi = Chem.MolToInchi(mol)
		if inchi_standard:
			inchi_check = Compound.objects.filter(inchi=inchi)
			if len(inchi_check) == 0:
				pass
			elif len(inchi_check) == 1:
				return inchi_check[0], False
			else:
				matched_smiles = " AND ".join([inchi_obj.smiles for inchi_obj in inchi_check])
				raise MoleculeMatchException("Inchi from SMILES {} matched an Inchi existing in database with SMILES {}".format(smiles, matched_smiles))
		property = Property(amw=Chem.rdMolDescriptors.CalcExactMolWt(mol),
							hba=Chem.rdMolDescriptors.CalcNumHBA(mol),
							hbd=Chem.rdMolDescriptors.CalcNumHBD(mol),
							tpsa=Chem.rdMolDescriptors.CalcTPSA(mol))
		property.save()

		bfp = Chem.rdMolDescriptors.GetMorganFingerprintAsBitVect(mol, 2, 512)
		fingerprint = Fingerprint(bfp=bfp)
		fingerprint.save()

		inchi_key = Chem.InchiToInchiKey(inchi)
		compound = Compound(smiles=smiles,
							molecule=mol,
							inchi=inchi,
							inchi_key=inchi_key,
							ctab=Chem.MolToMolBlock(mol),
							fingerprint=fingerprint,
							property=property)
		compound.save()
		return compound, True
	elif len(compounds) == 1:
		if inchi_standard:
			mol = Chem.MolFromSmiles(smiles)
			inchi = Chem.MolToInchi(mol)
			inchi_check = Compound.objects.filter(inchi=inchi)
			if len(inchi_check) != 1:
				raise MoleculeMatchException("Inchi from SMILES {} did not match one Inchi existing in database".format(smiles))
		return compounds[0], False
	else:
		raise MoleculeMatchException("Exact match search returned multiple molecules")
Esempio n. 26
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def create_property(step=None):
    # Import DB
    from models import Property
    # Import Genability Interface
    from services.genability import GenabilityApiInterface, auth
    GenabilityInterface = GenabilityApiInterface(auth["app_id"],
                                                 auth["app_key"])

    if step is not None:
        if step == "1":
            property_name = request.json['property_name']
            address_line_1 = request.json['address_line_1']
            address_line_2 = request.json['address_line_2']
            city = request.json['city']
            zipcode = request.json['zipcode']
            customer_class = request.json['customer_class']
            user_id = request.json['user_id']
            ### Create a genability account
            new_account = GenabilityInterface.create_account(
                account_name=property_name,
                address1=address_line_1,
                address2=address_line_2,
                city=city,
                zipcode=zipcode,
                country="US",
                customer_class=customer_class,
            )
            # new_account = GenabilityInterface.get_account(providerAccountId='49546fc5-7101-42d6-8ab4-539f855b4918')
            account = json.loads(new_account)
            provider_account_id = account["results"][0]["providerAccountId"]
            ### Store account information in the local database
            Property.create_property(property_name, address_line_1,
                                     address_line_2, city, zipcode,
                                     provider_account_id, user_id,
                                     customer_class)
            ### Retrieve and return utilities associated with the account
            utilities = GenabilityInterface.get_utilities(zipcode)
            return ({
                "provider_account_id": provider_account_id,
                "utilities": utilities
            })

        if step == "2":
            provider_account_id = request.json['provider_account_id']
            lseId = request.json['lseId']
            utility_name = request.json['utility_name']
            ### UpdateGenability and the local db
            GenabilityInterface.set_utility(
                providerAccountId=provider_account_id, lseId=lseId)
            Property.set_utility(provider_account_id=provider_account_id,
                                 utility_id=lseId,
                                 utility_name=utility_name)
            ### Retrieve and return tariffs associated with the account
            tariffs = GenabilityInterface.get_tariffs(
                providerAccountId=provider_account_id)
            return tariffs

        if step == "3":
            provider_account_id = request.json['provider_account_id']
            master_tariff_id = request.json['master_tariff_id']
            tariff_name = request.json['tariff_name']
            ### Update Genability and the local db
            response = GenabilityInterface.set_tariff(
                providerAccountId=provider_account_id,
                masterTariffId=master_tariff_id)
            Property.set_tariff(provider_account_id=provider_account_id,
                                tariff_id=master_tariff_id,
                                tariff_name=tariff_name)
            return response

        if step == "4":
            provider_account_id = request.json['provider_account_id']
            month_1_usage = request.json['month_1_usage']
            month_2_usage = request.json['month_2_usage']
            month_3_usage = request.json['month_3_usage']
            ### Update Genability and the local db
            response = GenabilityInterface.create_electricity_profile(
                providerAccountId=provider_account_id,
                bill_1=month_1_usage,
                bill_2=month_2_usage,
                bill_3=month_3_usage)
            data = json.loads(response)
            electricity_profile_id = data["results"][0]["providerProfileId"]
            Property.set_electricity_profile(provider_account_id,
                                             month_1_usage, month_2_usage,
                                             month_3_usage,
                                             electricity_profile_id)
            return response

        if step == "5":
            provider_account_id = request.json['provider_account_id']
            solar_system_kw = request.json['solar_system_kw']
            solar_system_dir = request.json['solar_system_dir']
            solar_system_tilt = request.json['solar_system_tilt']
            # Update Genability and the local db
            response = GenabilityInterface.create_solar_profile(
                provider_account_id, solar_system_dir, solar_system_kw,
                solar_system_tilt)
            data = json.loads(response)
            solar_profile_id = data["results"][0]["providerProfileId"]
            Property.set_solar_profile(provider_account_id, solar_system_dir,
                                       solar_system_kw, solar_system_tilt,
                                       solar_profile_id)
            return response

        if step == "6":
            # Select the battery system specifications [power (kw), capacity (kWh)
            storage_specifications = {
                '0': ['No storage', 'No storage'],
                '1': ['5', '10'],
                '2': ['5', '13.5'],
                '3': ['10', '20'],
                '4': ['10', '27'],
                '5': ['20', '50'],
                '6': ['40', '120'],
                '7': ['60', '240']
            }
            provider_account_id = request.json['provider_account_id']
            storage_system = request.json["storage_system"]
            storage_power_kw = storage_specifications[storage_system][0]
            storage_capacity_kwh = storage_specifications[storage_system][1]
            storage_profile_id = f'{provider_account_id}-storage'
            edited_property = Property.set_storage_profile(
                provider_account_id, storage_power_kw, storage_capacity_kwh,
                storage_profile_id)
            # Retrieve the electricity 8760 data and create a template for storage data
            e_response = GenabilityInterface.get_electricity_profile(
                edited_property.electricity_profile_id)
            e_data = json.loads(e_response)
            electricity_profile = []
            storage_profile = []
            for hour in e_data["results"][0]["intervals"]["list"]:
                electricity_profile.append(hour["kWh"]["quantityAmount"])
                storage_profile.append({
                    "fromDateTime": hour["fromDateTime"],
                    "quantityUnit": "kWh",
                    "quantityValue": '',
                    "toDateTime": hour["toDateTime"]
                })
            # Retrieve the solar 8760 data
            s_response = GenabilityInterface.get_solar_profile(
                edited_property.solar_profile_id)
            s_data = json.loads(s_response)
            solar_profile = []
            for hour in s_data["results"][0]["baselineMeasures"]:
                solar_profile.append(hour["v"])
            # Call the OSESMO to return the 8760 data for storage
            from services.osesmo import main
            if storage_system != '0':
                # Solar plus storage
                [
                    storage_profile_data, storage_installed_cost,
                    solar_installed_cost
                ] = main(electricity_profile, solar_profile,
                         edited_property.customer_class,
                         float(edited_property.solar_system_kw),
                         float(edited_property.storage_power_kw),
                         float(edited_property.storage_capacity_kwh))
                # Send the storage profile to Genability
                for i in range(len(storage_profile)):
                    storage_profile[i]["quantityValue"] = str(
                        -1 * storage_profile_data[i])
                GenabilityInterface.set_storage_profile(
                    storage_profile, provider_account_id, storage_profile_id)
                # Analyze the solar plus torage savings using Genability analysis endpoint
                response = GenabilityInterface.analyze_solar_plus_storage(
                    provider_account_id, edited_property.tariff,
                    edited_property.electricity_profile_id,
                    edited_property.solar_profile_id,
                    edited_property.storage_profile_id)
            else:
                # Solar only
                customer_class_dict = {
                    "residential": "Residential",
                    "commercial": "Commercial and Industrial"
                }
                customer_class = customer_class_dict[
                    edited_property.customer_class]
                from services.OSESMO.Solar_Installed_Cost_per_kW_Calculator import Solar_Installed_Cost_per_kW_Calculator
                storage_installed_cost = 0.0
                solar_installed_cost = Solar_Installed_Cost_per_kW_Calculator(
                    customer_class, float(edited_property.solar_system_kw))
                # Analyze the solar savings using Genability analysis endpoint
                response = GenabilityInterface.analyze_solar(
                    provider_account_id, edited_property.tariff,
                    edited_property.electricity_profile_id,
                    edited_property.solar_profile_id)
            data = json.loads(response)
            yearly_savings = float(
                data["results"][0]["summary"]["netAvoidedCost"])
            monthly_savings = yearly_savings / 12
            payback_period = (storage_installed_cost +
                              solar_installed_cost) / yearly_savings
            # Save the reuslts to the local db
            finished_property = Property.set_savings_profile(
                provider_account_id, solar_installed_cost,
                storage_installed_cost, monthly_savings, payback_period)
            return finished_property
Esempio n. 27
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def get_or_create_compound(smiles, clean=False, inchi_standard=False):
    """
	Will return the compound object if found
	in the database or will create a new one
	and return it. Also returned a boolean 
	indicating whether or not it was created.
	If more than one Compound object returned,
	an exception is raised.
	If clean=True, input SMILES will be desalted and
	neutralized.
	If inchi_standard=True, INCHI will be used to determine
	if a compounds already exists in the databases. Since
	the standard INCHI canonicalized tautomers, you will see
	collisions between tautomers such as E/Z imines.
	"""
    config.do_chiral_sss = True
    if clean:
        smiles = desalt_neutralize(smiles, return_smiles=True)
    compounds = Compound.objects.filter(molecule__exact=smiles)
    if not compounds or len(compounds) == 0:
        mol = Chem.MolFromSmiles(smiles)
        inchi = Chem.MolToInchi(mol)
        if inchi_standard:
            inchi_check = Compound.objects.filter(inchi=inchi)
            if len(inchi_check) == 0:
                pass
            elif len(inchi_check) == 1:
                return inchi_check[0], False
            else:
                matched_smiles = " AND ".join([inchi_obj.smiles for inchi_obj in inchi_check])
                raise MoleculeMatchException(
                    "Inchi from SMILES {} matched an Inchi existing in database with SMILES {}".format(
                        smiles, matched_smiles
                    )
                )
        property = Property(
            amw=Chem.rdMolDescriptors.CalcExactMolWt(mol),
            hba=Chem.rdMolDescriptors.CalcNumHBA(mol),
            hbd=Chem.rdMolDescriptors.CalcNumHBD(mol),
            tpsa=Chem.rdMolDescriptors.CalcTPSA(mol),
        )
        property.save()

        bfp = Chem.rdMolDescriptors.GetMorganFingerprintAsBitVect(mol, 2, 512)
        fingerprint = Fingerprint(bfp=bfp)
        fingerprint.save()

        inchi_key = Chem.InchiToInchiKey(inchi)
        compound = Compound(
            smiles=smiles,
            molecule=mol,
            inchi=inchi,
            inchi_key=inchi_key,
            ctab=Chem.MolToMolBlock(mol),
            fingerprint=fingerprint,
            property=property,
        )
        compound.save()
        return compound, True
    elif len(compounds) == 1:
        if inchi_standard:
            mol = Chem.MolFromSmiles(smiles)
            inchi = Chem.MolToInchi(mol)
            inchi_check = Compound.objects.filter(inchi=inchi)
            if len(inchi_check) != 1:
                raise MoleculeMatchException(
                    "Inchi from SMILES {} did not match one Inchi existing in database".format(smiles)
                )
        return compounds[0], False
    else:
        raise MoleculeMatchException("Exact match search returned multiple molecules")
Esempio n. 28
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def add_device_api():
    body = request.get_json()
    if 'tag' not in body or 'name' not in body:
        error = {"Error": "No mandatory property is set."}
        return make_response(jsonify(error), 400)
    else:
        tag = body['tag']
        name = body['name']

        description = body.get('description', None)
        device_parent = body.get('device_parent', None)
        is_gateway = body.get('is_gateway', None)
        ipv4_address = body.get('ipv4_address', None)
        properties = body.get('properties', None)
        resources = body.get('resources', None)

        devices = Device.query.filter_by(tag=tag).first()
        if devices is not None:
            error = {"Error": "The device with this tag is already exist."}
            return make_response(jsonify(error), 400)
        if device_parent is not None:
            device = Device.query.filter_by(id=device_parent)
            if device is None:
                error = {"Error": "The parent device ID not exist."}
                return make_response(jsonify(error), 400)

        if properties:
            for proper in properties:
                keys_list = list(proper.keys())
                if "name" not in keys_list or "value" not in keys_list:
                    error = {
                        "Error":
                        "The properties doesn't have the mandatory attributes."
                    }
                    return make_response(jsonify(error), 400)

        if resources:
            for resource in resources:
                keys_list = list(resource.keys())
                if "tag" not in keys_list or "name" not in keys_list or "resource_type" not in keys_list:
                    error = {
                        "Error":
                        "The resources doesn't have the mandatory attributes."
                    }
                    return make_response(jsonify(error), 400)

        device = Device(tag=tag,
                        name=name,
                        description=description,
                        ipv4_address=ipv4_address,
                        is_gateway=is_gateway,
                        device_parent=device_parent)
        db.session.add(device)
        db.session.commit()

        if properties:
            for proper in properties:
                if "description" not in list(proper.keys()):
                    proper_d = Property(name=proper["name"],
                                        value=proper["value"],
                                        device_id=device.id)
                else:
                    proper_d = Property(name=proper["name"],
                                        value=proper["value"],
                                        description=proper["description"],
                                        device_id=device.id)
                db.session.add(proper_d)

        if resources:
            for resource in resources:
                if "description" not in list(resource.keys()):
                    resource_d = Resource(
                        tag=resource["tag"],
                        name=resource["name"],
                        resource_type=resource["resource_type"],
                        device_id=device.id)
                else:
                    resource_d = Resource(
                        tag=resource["tag"],
                        name=resource["name"],
                        description=resource["description"],
                        resource_type=resource["resource_type"],
                        device_id=device.id)
                db.session.add(resource_d)

        db.session.commit()
        return jsonify(device.serialize)
Esempio n. 29
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def update_device_api(tag):
    device = Device.query.filter_by(tag=tag).first()

    if device is not None:
        body = request.get_json()
        propers = []
        resources_list = []

        #Get properties from request
        name = body.get('name', None)
        description = body.get('description', None)
        device_parent = body.get('device_parent', None)
        is_gateway = body.get('is_gateway', None)
        ipv4_address = body.get('ipv4_address', None)
        properties = body.get('properties', None)
        resources = body.get('resources', None)

        #Set properties to model
        if name:
            device.name = name
        if description:
            device.description = description
        if device_parent:
            device.device_parent = device_parent
        if is_gateway is not None:
            device.is_gateway = is_gateway
        if ipv4_address:
            device.ipv4_address = ipv4_address
        if properties:
            for proper in properties:
                keys_list = list(proper.keys())
                if "name" not in keys_list or "value" not in keys_list:
                    error = {
                        "Error":
                        "The properties doesn't have the mandatory attributes."
                    }
                    return make_response(jsonify(error), 400)
                properti = Property(name=proper["name"],
                                    value=proper["value"],
                                    description=proper.get(
                                        "description", None))
                propers.append(properti)
        if resources:
            for resource in resources:
                keys_list = list(resource.keys())
                if "tag" not in keys_list or "name" not in keys_list or "resource_type" not in keys_list:
                    error = {
                        "Error":
                        "The resources doesn't have the mandatory attributes."
                    }
                    return make_response(jsonify(error), 400)
                resource_i = Resource(tag=resource["tag"],
                                      name=resource.get("name", None),
                                      resource_type=resource.get(
                                          "resource_type", None))
                resources_list.append(resource_i)

        db.session.add(device)
        db.session.commit()

        if len(propers) > 0:
            for new_proper in propers:
                proper = Property.query.filter_by(
                    device_id=device.id, name=new_proper.name).first()
                if proper is not None:
                    proper.value = new_proper.value
                    proper.description = new_proper.description
                    db.session.add(proper)
                else:
                    new_proper.device_id = device.id
                    db.session.add(new_proper)
            db.session.commit()

        if len(resources_list) > 0:
            for new_resource in resources_list:
                resource = Resource.query.filter_by(
                    device_id=device.id, tag=new_resource.tag).first()
                if resource is not None:
                    print("entro aquí")
                    resource.name = new_resource.name
                    resource.resource_type = new_resource.resource_type
                    if new_resource.description:
                        resource.description = new_resource.description
                    db.session.add(resource)
                else:
                    print("entro aca")
                    new_resource.device_id = device.id
                    db.session.add(new_resource)
            db.session.commit()

        return jsonify(device.serialize)

    else:
        error = {"Error": "The device doesn't exist."}
        return make_response(jsonify(error), 400)
Esempio n. 30
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async def homepage(request):
    try:
        filter = request.query_params['filter']

        if filter == 'under-100':
            data = request.state.db.listingsAndReviews.find(
                {
                    '$and': [{
                        'cleaning_fee': {
                            '$exists': True
                        }
                    }, {
                        'price': {
                            '$lt': 100
                        }
                    }]
                },
                limit=15)
        elif filter == 'highly-rated':
            data = request.state.db.listingsAndReviews.find(
                {
                    '$and': [{
                        'cleaning_fee': {
                            '$exists': True
                        }
                    }, {
                        'price': {
                            '$lt': 100
                        }
                    }, {
                        'review_scores.review_scores_rating': {
                            '$gt': 90
                        }
                    }]
                },
                limit=15)
        elif filter == 'surprise':
            data = request.state.db.listingsAndReviews.find(
                {
                    'cleaning_fee': {
                        '$exists': True
                    },
                    'amenities': {
                        '$in':
                        ["Pets allowed", "Patio or balcony", "Self check-in"]
                    }
                },
                limit=15)
    except KeyError:
        data = request.state.db.listingsAndReviews.find(
            {'cleaning_fee': {
                '$exists': True
            }}, limit=15)

    response = []

    for doc in data:
        response.append(
            Property(doc['_id'],
                     doc['name'], doc['summary'], doc['address']['street'],
                     str(doc['price']), str(doc['cleaning_fee']),
                     str(doc['accommodates']), doc['images']['picture_url'],
                     doc['amenities']))

    return templates.TemplateResponse('index.html', {
        'request': request,
        'response': response
    })
Esempio n. 31
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from google.appengine.ext import db
from geo.geocell import compute, MAX_GEOCELL_RESOLUTION
from geo.geotypes import Point
from models import Property, PropertyIndex, RealEstate
from search_helper import config_array, alphabet, calculate_price

fout = open('propertybulked.csv', "w")
csvout = csv.writer(fout, delimiter=',', quotechar='"', lineterminator='\n')

# Atributos del objeto Propiedad para imprimir en el csv del bulker.
attribute_headers = [u'key']

# Itero sobre el metodo 'public_attributes()' de propiedad para obtener los atributos del objeto y generar el csv del bulker.
# Este metodo tambien es utilizado por la librería del 'service/search', pra generar el Json.
for key in Property.public_attributes():
    attribute_headers.append(u'%s' % unicode(key))

# Agrego atributo realestate (que no es retornado por el método 'public_attributes()') y el string location el cual agrego a mano para generar el csv.
attribute_headers.append(u'realestate')
attribute_headers.append(u'location')
attribute_headers.append(u'location_geocells')
attribute_headers.append(u'status')

# Escribo el header de los atributos a bulkear en el csv.
csvout.writerow(map(lambda x: x.encode('utf8'), attribute_headers))

# Arreglo que contiene los tipos de currency.
currencies = {'US': 'USD', 'PE': 'ARS', '': ''}

csvreader = csv.reader(open('normalized.csv', 'r'),
Esempio n. 32
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    def doSearch(self, cursor_key, **kwargs):
        query_type = self.request["query_type"]

        if not query_type in ['proximity', 'bounds']:
            return _simple_error(
                'El parámetro de búsqueda debe ser "proximity" o "bounds".',
                code=400)

        if query_type == 'proximity':
            try:
                center = geotypes.Point(float(self.request['lat']),
                                        float(self.request['lon']))
            except ValueError:
                return _simple_error(
                    'lat and lon parameters must be valid latitude and longitude values.',
                    code=400)

        elif query_type == 'bounds':
            try:
                bounds = geotypes.Box(float(self.request['north']),
                                      float(self.request['east']),
                                      float(self.request['south']),
                                      float(self.request['west']))
            except ValueError:
                return _simple_error(
                    'north, south, east, and west parameters must be valid latitude/longitude values.',
                    code=400)

        max_distance = 80000  # 80 km ~ 50 mi
        if self.request.has_key('max_distance'):
            max_distance = float(self.request['max_distance'])

        #---extirpado--
        base_query, price_data = create_query_from_dict(
            self.request, PropertyIndex)
        #---extirpado--

        max_results = MAX_QUERY_RESULTS
        if self.request.has_key('max_results'):
            max_results = int(self.request['max_results'])

        results, the_box, new_cursor_key = Property.bounding_box_fetch(
            base_query,
            bounds,
            max_results=max_results,
            cost_function=None,
            cursor_key=cursor_key)

        total_count = 'cientos'
        viewing_count = len(results)

        return {
            'properties':
            results,
            'total_count':
            total_count,
            'viewing':
            viewing_count,
            'the_box':
            '<br/>' + the_box + '<br/><br/>cursor_key:' + str(cursor_key),
            'cursor_key':
            new_cursor_key,
            'price_data':
            price_data
        }
Esempio n. 33
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def load_experiment(experiment_id):
    experiment = Experiment.gql('WHERE __key__ = KEY(:1)', experiment_id).get()
    treatments = Treatment.gql('WHERE ANCESTOR IS KEY(:1)', experiment_id)
    properties = Property.gql('WHERE ANCESTOR IS KEY(:1)', experiment_id)

    return (experiment, treatments, properties)
Esempio n. 34
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from geocell import compute, MAX_GEOCELL_RESOLUTION
from geotypes import Point
from models import Property, PropertyIndex
from search_helper import config_array, alphabet, calculate_price

f = codecs.open('propertybulked.csv', "w", "utf-8")

# Atributos del objeto Propiedad para imprimir en el csv del bulker.
attribute_headers = 'key,'
# Atributos del objeto Propiedad para iterar en la instancia y generar el csv del bulker.
attributes = []

# Itero sobre el metodo 'public_attributes()' de propiedad para obtener los atributos del objeto y generar el csv del bulker.
# Este metodo tambien es utilizado por la librería del 'service/search', pra generar el Json.
for key in  Property.public_attributes():
  attribute_headers += '%s,' % key
  attributes.append(key)

# Agrego atributo realestate (que no es retornado por el método 'public_attributes()') y el string location el cual agrego a mano para generar el csv.
attributes.append('realestate')
attribute_headers += 'realestate,location\r\n'
 
# Escribo el header de los atributos a bulkear en el csv.
f.write(attribute_headers.encode('utf-8'))

# Semilla para las KEY de Property (esta semilla es utilizada por el bulker de imagenes, para tener correspondencia).
seed = 1001

# contadores para mostrar luego los max.
max_geocell_len = 0