405 lines
20 KiB
Python
405 lines
20 KiB
Python
# -*- coding: utf-8 -*-
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from django.core.exceptions import ObjectDoesNotExist
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from django.shortcuts import render, redirect
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from django.http import HttpRequest, HttpResponse
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from django.template.loader import render_to_string
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from oknardia.settings import *
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from oknardia.models import (
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Seria_Info,
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Win_MountDim,
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Building_Info,
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)
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from web.report1 import get_last_all_user_visit_list, get_last_user_visit_cookies, get_last_user_visit_list
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from web.add_func import get_flaps_for_big_pictures, touch_reload_wsgi
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import time
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import os
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import math
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import pytils
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# Каталог типовых серий зданий (пока переадресация)
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def catalog_seria(request: HttpRequest) -> HttpResponse:
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"""
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КАТАЛОГ ТИПОВЫЙ СЕРИЙ: страница со всеми сериями зданий в базе окнардии
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:param request: HttpRequest -- входящий http-запрос
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:return response: HttpResponse -- исходящий http-ответ
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"""
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time_start = time.time()
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try:
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q_seria = Seria_Info.objects.raw('SELECT'
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' oknardia_seria_info.id,'
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' oknardia_seria_info.sURL2IMG,'
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' oknardia_seria_info.sName '
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'FROM oknardia_seria_info '
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'WHERE oknardia_seria_info.id = oknardia_seria_info.kRoot_id '
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'ORDER BY oknardia_seria_info.sName;')
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list_seria = []
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for i in q_seria:
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list_seria.append({
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"ID": i.id,
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"URL": i.sURL2IMG,
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"NAME": i.sName,
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"NAME_T": pytils.translit.slugify(i.sName)
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})
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to_template = {'SERIAS': list_seria}
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except (ObjectDoesNotExist,):
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to_template = {}
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to_template.update({
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# получаем последние визиты клиента через куки
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'LAST_VISIT': get_last_user_visit_list(get_last_user_visit_cookies(request)[:3]),
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# получаем последние визиты всех посетителей из базы
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# id2log, log_visit = get_last_all_user_visit_list()
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'LOG_VISIT': get_last_all_user_visit_list(),
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'ticks': float(time.time() - time_start)
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})
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return render(request, "catalog/catalog_seria.html", to_template)
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def catalog_seria_info(request: HttpRequest, seria_name_translit: None, seria_id: int = 843) -> HttpResponse:
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"""
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КАТАЛОГ ТИПОВЫЙ СЕРИЙ: страница детальной информацией по серии зданий
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:param request: HttpRequest -- входящий http-запрос
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:param seria_name_translit: str -- имя серии здания (транслитерированное pytils.translit.slugify())
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:param seria_id: int -- id серии
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:return response: HttpResponse -- исходящий http-ответ
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"""
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time_start = time.time()
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msg = ""
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try:
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seria_id = int(seria_id)
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q_seria = Seria_Info.objects.get(id=seria_id)
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if q_seria.id != q_seria.kRoot_id or seria_name_translit != pytils.translit.slugify(q_seria.sName):
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return redirect(f"/catalog/seria/{pytils.translit.slugify(q_seria.sName)}/all{seria_id}")
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except(ObjectDoesNotExist, ValueError,):
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return redirect("/catalog/")
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# если есть "облегченный" шаблон с частичным пре-рендером, то используем его.
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light_template = f"{PATH_FOR_SERIA_INFO_HTML_INCLUDE}{str(seria_id)}_id.html"
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light_template_w_path = f"{TEMPLATES[0]['DIRS'][0]}/{light_template}"
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# print(f"{TEMPLATES[0]['DIRS'][0]}/{light_template}")
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# print(light_template_w_path)
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# print(light_template_w_path)
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if os.path.isfile(light_template_w_path):
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is_hard_template = False
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else:
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is_hard_template = True
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to_template = {}
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# получаем проемы использующиеся в данной серии домов
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q_windows_in_seria = Win_MountDim.objects.raw(
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f"SELECT DISTINCT"
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f" oknardia_win_mountdim.iWinWidth, oknardia_win_mountdim.iWinHight,"
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f" oknardia_win_mountdim.sDescripion, oknardia_win_mountdim.bIsDoor,"
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f" oknardia_win_mountdim.bIsNearDoor, oknardia_win_mountdim.sFlapConfig,"
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f" oknardia_win_mountdim.iWinDepth, oknardia_win_mountdim.id,"
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f" 1 AS iQuantity "
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f"FROM oknardia_mountdim2apartment"
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f" INNER JOIN oknardia_win_mountdim"
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f" ON oknardia_mountdim2apartment.kMountDim_id = oknardia_win_mountdim.id"
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f" INNER JOIN oknardia_apartment_type"
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f" ON oknardia_mountdim2apartment.kApartment_id = oknardia_apartment_type.id "
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f"WHERE oknardia_apartment_type.kSeria_id = {seria_id}"
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f" ORDER BY oknardia_win_mountdim.bIsNearDoor DESC,"
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f" oknardia_win_mountdim.bIsDoor DESC,"
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f" oknardia_win_mountdim.iWinWidth,"
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f" oknardia_win_mountdim.iWinHight DESC;")
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if is_hard_template:
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# Получаем данные для отрисовки больших картинок с проёмами и передаём в "тяжёлый" шаблон
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to_template.update(get_flaps_for_big_pictures(q_windows_in_seria))
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# формируем строку для включения в SQL-запрос вида "(2,8,16,46,1)"
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str_for_sql_in = "("
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for count in q_windows_in_seria:
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str_for_sql_in += str(count.id) + ","
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str_for_sql_in = str_for_sql_in[:-1] + ")"
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# print StringForSqlIN
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# Получаем данные для таблички Окон по типам квартирах в серии дома
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# " IFNULL(oknardia_mountdim2apartment.iQuantity, 0) AS iQuantity," \
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# tStart2 = time.time() # замер времени
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q_win_in_apartment_in_seria = Win_MountDim.objects.raw(
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f"SELECT"
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f" oknardia_win_mountdim.id,"
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f" oknardia_apartment_type.sNameApartment,"
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f" oknardia_win_mountdim.iWinWidth,"
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f" oknardia_win_mountdim.iWinHight,"
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f" oknardia_apartment_type.id AS id_apart,"
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f" IFNULL(oknardia_mountdim2apartment.iQuantity, 0) AS iQuantity,"
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f" COUNT(oknardia_priceoffer.id) AS NumOffers "
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f"FROM oknardia_apartment_type"
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f" INNER JOIN oknardia_win_mountdim"
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f" LEFT OUTER JOIN oknardia_mountdim2apartment"
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f" ON oknardia_mountdim2apartment.kMountDim_id = oknardia_win_mountdim.id"
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f" AND oknardia_mountdim2apartment.kApartment_id = oknardia_apartment_type.id"
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f" LEFT OUTER JOIN oknardia_priceoffer"
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f" ON oknardia_priceoffer.kOffer2MountDim_id = oknardia_win_mountdim.id"
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f" LEFT OUTER JOIN oknardia_ouruser"
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f" ON oknardia_ouruser.id = oknardia_priceoffer.kOfferFromUser_id "
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f"WHERE oknardia_apartment_type.kSeria_id = {seria_id} "
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f"AND oknardia_win_mountdim.id IN {str_for_sql_in} "
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f"GROUP BY oknardia_apartment_type.id,"
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f" oknardia_apartment_type.sNameApartment,"
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f" oknardia_win_mountdim.id,"
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f" oknardia_mountdim2apartment.iQuantity "
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f"ORDER BY oknardia_apartment_type.iSort,"
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f" oknardia_win_mountdim.bIsNearDoor DESC,"
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f" oknardia_win_mountdim.bIsDoor DESC,"
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f" oknardia_win_mountdim.iWinWidth,"
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f" oknardia_win_mountdim.iWinHight DESC;")
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list_win_in_seria = list(q_windows_in_seria)
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total_column = len(list_win_in_seria) - 1
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count_column = 0
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min_offer_in_row = 1000000000
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table_of_win_in_seria_by_apartmment = []
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row_for_table = []
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offer_and_merchant_per_win = [
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{
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"WIN_OFFER": 0,
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"WIN_MERCHANT": 0,
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"WIN_W": list_win_in_seria[i].iWinWidth,
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"WIN_H": list_win_in_seria[i].iWinHight,
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"WIN_ID": list_win_in_seria[i].id
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} for i in range(total_column + 1)]
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for count in q_win_in_apartment_in_seria:
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if count.iQuantity != 0:
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row_for_table.append({
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"WIN_NUM": [chr(65 + count_column)],
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"WIN_Q": count.iQuantity,
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"WIN_ID": count.id,
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"WIN_WIDTH": list_win_in_seria[count_column].iWinWidth,
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"WIN_HEIGHT": list_win_in_seria[count_column].iWinHight,
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"WIN_DESCRIPTION": list_win_in_seria[count_column].sDescripion,
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"WIN_FLAPCFG": list_win_in_seria[count_column].sFlapConfig
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})
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if min_offer_in_row > count.NumOffers:
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min_offer_in_row = count.NumOffers
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if offer_and_merchant_per_win[count_column]["WIN_OFFER"] < count.NumOffers:
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offer_and_merchant_per_win[count_column]["WIN_OFFER"] = count.NumOffers
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else:
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row_for_table.append({"WIN_NUM": "—"})
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if count_column < total_column:
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count_column += 1
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else:
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# print row_for_table
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table_of_win_in_seria_by_apartmment.append({"WIN_IN_APART": row_for_table,
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"APART_NAME": count.sNameApartment,
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"APART_ID": count.id_apart,
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"NUM_OFFERS": min_offer_in_row})
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count_column = 0
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min_offer_in_row = 10000
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row_for_table = []
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# print(table_of_win_in_seria_by_apartmment)
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# print(f"==============>{float(time.time()-tStart2)}<==============")
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# print NumOffersPerColumn, NumMerchantPerColumn
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to_template.update({"WIN_OFFER_AND_MERCHANT": offer_and_merchant_per_win,
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"TABLE_OF_WINDOWS": table_of_win_in_seria_by_apartmment})
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# для "тяжелого шаблона" получаем навигацию страницы, данные для карты и графика ввода в эксплуатацию
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if is_hard_template:
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# если вызывается "тяжелый" шаблон, то нужно подготовить тяжелые данные для построения навигации
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seria_id, for_seria_nav = seria_nav(seria_id)
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to_template.update(for_seria_nav) # данные для навигации по сериям
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to_template.update(seria_info_year(seria_id)) # данные для графика ввода зданий серии в эксплуатацию
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to_template.update(seria_info_geo_code(seria_id)) # данные для карты
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# т.к. обрабатывается "тяжелый шаблон" надо создать "легкий шаблон"
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# для его использования в будущем.
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string_prerender = render_to_string("seria_info/all_seria_info_pre_light.html", to_template)
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file = open(light_template_w_path, 'w')
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# file.write(AA.encode('utf-8'))
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file.write(string_prerender)
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file.close()
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touch_reload_wsgi(light_template_w_path)
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else:
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seria_name = Seria_Info.objects.get(id=seria_id).sName
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to_template.update({'THIS_SERIA_NAME': seria_name})
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# to_template.update({'LOG_VISIT': GetLastAllUserVisitSeriaList(SeriaName),
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# 'ticks': float(time.time()-time_start)})
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to_template.update({
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# получаем последние визиты клиента через куки
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'LAST_VISIT': get_last_user_visit_list(get_last_user_visit_cookies(request)[:3]),
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# получаем последние визиты всех посетителей из базы
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# id2log, log_visit = get_last_all_user_visit_list()
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'LOG_VISIT': get_last_all_user_visit_list(),
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'ticks': float(time.time() - time_start)
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})
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return render(request, light_template, to_template)
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def seria_nav(seria_id: int = 12) -> (int, dict):
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"""
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Возвращает корректный seria_id и кортеж для построения навигации по сериям дома
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:param seria_id: id серии
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:return:
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"""
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q_seria = Seria_Info.objects.raw(
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'SELECT oknardia_seria_info.id,'
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' oknardia_seria_info.sName,'
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' oknardia_seria_info.sSeriaDescription,'
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' oknardia_seria_info.kRoot_id,'
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' oknardia_seria_info.kParent_id '
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'FROM oknardia_seria_info '
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'WHERE oknardia_seria_info.id = oknardia_seria_info.kRoot_id '
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'ORDER BY oknardia_seria_info.sName;')
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error_seria = True
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for count_seria in q_seria:
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if count_seria.id == int(seria_id):
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error_seria = False
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break
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if error_seria:
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# Ошибочный seria_id. Такой базовой серии нет и надо ее найти.
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try:
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query = Seria_Info.objects.get(id=int(seria_id))
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if query.kRoot_id is not None:
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# базовая серия прописана в kRoot_id
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seria_id = query.kRoot_id
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else:
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# == корневой нет
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# == ищем методом наименьших расстояний"
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min_min = 100000000
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min_id = seria_id
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for count_seria in q_seria:
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if math.fabs(int(seria_id) - count_seria.id) < min_min:
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min_min = math.fabs(int(seria_id) - count_seria.id)
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min_id = count_seria.id
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seria_id = min_id
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except ObjectDoesNotExist:
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seria_id = q_seria[0].id
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# print(f"-->{seria_id}<--")
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return all_seria_nav(seria_id, q_seria)
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def all_seria_nav(seria_id: int, q_seria) -> (int, dict):
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seria_nav_dim = []
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this_return = {}
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for count_seria in q_seria:
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one_seria = {}
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one_seria.update({"SERIA_R": count_seria.sName, "ID2URL": count_seria.id})
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if count_seria.id == seria_id:
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this_return.update({"THIS_SERIA_NAME": count_seria.sName,
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"THIS_SERIA_DESCRIPTION": count_seria.sSeriaDescription})
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# one_seria.update({"SERIA_L": ""})
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one_seria.update({"SERIA_L": pytils.translit.slugify(count_seria.sName)})
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else:
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one_seria.update({"SERIA_L": pytils.translit.slugify(count_seria.sName)})
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seria_nav_dim.append(one_seria)
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this_return.update({"SERIA_NAV_DIM": seria_nav_dim})
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return seria_id, this_return
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def seria_info_year(seria_id: int = 12) -> dict:
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""" Возвращает данные для графика распределения сдачи серии в эксплуатацию
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:param seria_id: int -- id серии для которой нужно получить данные
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:return: dict -- данные для графика распределения сдачи серии в эксплуатацию типа:
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{"DATA4GRAPH": [{'YEAR': 1997, 'NUMS': 1, 'CLRS': '99'},
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{'YEAR': 1998, 'NUMS': 15, 'CLRS': 'сс'},
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{'YEAR': 1998, 'NUMS': 10, 'CLRS': 'a9'}
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]
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}
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"""
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seria_in_years = []
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query = Seria_Info.objects.raw(
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f"SELECT oknardia_building_info.iCommissioning_year as id,"
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f" COUNT(oknardia_building_info.iCommissioning_year) AS NumInYear "
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f"FROM oknardia_building_info"
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f" INNER JOIN oknardia_seria_info"
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f" ON oknardia_building_info.kSeria_Link_id = oknardia_seria_info.id "
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f"WHERE oknardia_seria_info.kRoot_id = {seria_id} "
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f"GROUP BY oknardia_building_info.iCommissioning_year;"
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)
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max_per_year = 0
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graph_color_light = 0xCC # самый светлый цвет на графике (максимальное значение)
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graph_color_dark = 0x99 # самый темный цвет на графике (минимальное значение)
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for YearCount in query:
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if int(YearCount.NumInYear) > max_per_year:
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max_per_year = int(YearCount.NumInYear)
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# print("max", MaxPerYear)
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for YearCount in query:
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data_of_year = {}
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try:
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data_of_year.update({
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"YEAR": int(YearCount.id),
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"NUMS": YearCount.NumInYear,
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"CLRS": str(hex(int(graph_color_dark + YearCount.NumInYear * (
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graph_color_light - graph_color_dark) / max_per_year)))[2:]
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})
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except ValueError:
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continue
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seria_in_years.append(data_of_year)
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# print(seria_in_years)
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return {"DATA4GRAPH": seria_in_years}
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def seria_info_geo_code(seria_id: str = '12') -> dict:
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""" Возвращает массив геокоординат зданий одной серии
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:param seria_id: str -- id серии для которой нужно получить данные
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:return: dict -- массив геокоординат зданий серии
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"""
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data_return = {}
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seria_to_geo = []
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municipal_m2 = 0 # муниципальный фонд (кв.м)
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residential_m2 = 0 # жилой фонд (кв.м)
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government_m2 = 0 # государственные учреждения занимают (кв.м.)
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residents = 0 # количество жильцов
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apartments = 0 # число квартиры
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accounts = 0 # количество лицевых счетов
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condition_max = 0 # максимальное значение показателя состояния здания
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condition_min = 1000000 # минимальное значение показателя состояния здания
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query = Building_Info.objects.raw(
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f"SELECT"
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f" oknardia_building_info.id,"
|
||
f" oknardia_seria_info.kRoot_id as SerId,"
|
||
f" oknardia_building_info.sAddress,"
|
||
f" oknardia_building_info.fResidential_Area,"
|
||
f" oknardia_building_info.fMunicipal_Area,"
|
||
f" oknardia_building_info.fGovernment_Area,"
|
||
f" oknardia_building_info.iNum_Residents,"
|
||
f" oknardia_building_info.iNum_Apartments,"
|
||
f" oknardia_building_info.iNum_Accounts,"
|
||
f" oknardia_building_info.fCondition_House,"
|
||
f" oknardia_building_info.fGeoCode_Latitude,"
|
||
f" oknardia_building_info.fGeoCode_Longitude "
|
||
f"FROM oknardia_building_info"
|
||
f" INNER JOIN oknardia_seria_info"
|
||
f" ON oknardia_building_info.kSeria_Link_id = oknardia_seria_info.id "
|
||
f"WHERE oknardia_seria_info.kRoot_id IN ({seria_id});"
|
||
)
|
||
for count in query:
|
||
if int(count.fGeoCode_Latitude) != 0 and int(count.fGeoCode_Longitude) != 0:
|
||
seria_to_geo.append({"LATITUDE": count.fGeoCode_Latitude,
|
||
"LONGITUDE": count.fGeoCode_Longitude,
|
||
"ADDR_ID": count.id,
|
||
"ADDR_LAT": pytils.translit.slugify(count.sAddress),
|
||
"ADDR_RUS": count.sAddress,
|
||
"SER_ID": count.SerId
|
||
})
|
||
if count.fMunicipal_Area > 0:
|
||
municipal_m2 += count.fMunicipal_Area
|
||
if count.fResidential_Area > 0:
|
||
residential_m2 += count.fResidential_Area
|
||
if count.fGovernment_Area > 0:
|
||
government_m2 += count.fGovernment_Area
|
||
if count.iNum_Residents > 0:
|
||
residents += count.iNum_Residents
|
||
if count.iNum_Residents > 0:
|
||
residents += count.iNum_Residents
|
||
if count.iNum_Apartments > 0:
|
||
apartments += count.iNum_Apartments
|
||
if count.iNum_Accounts > 0:
|
||
accounts += count.iNum_Accounts
|
||
if count.fCondition_House > 0:
|
||
if count.fCondition_House > condition_max:
|
||
condition_max = count.fCondition_House
|
||
if count.fCondition_House < condition_min:
|
||
condition_min = count.fCondition_House
|
||
data_return.update({"DATA4GEO": seria_to_geo,
|
||
"MUNICIPAL_M2": municipal_m2,
|
||
"RESIDENTIAL_M2": residential_m2,
|
||
"GOVERNMENT_M2": government_m2,
|
||
"RESIDENTS": residents,
|
||
"APARTMENTS": apartments,
|
||
"ACCOUNTS": accounts,
|
||
"CONDITION_MAX": condition_max,
|
||
"CONDITION_MIN": condition_min})
|
||
# print(seria_to_geo)
|
||
return data_return
|