Merge remote-tracking branch 'forgejo/main' into fix/234-nspd-harvest-eta-badge
# Conflicts: # backend/app/services/site_finder/quarter_dump_lookup.py
This commit is contained in:
commit
b99ac76463
9 changed files with 811 additions and 21 deletions
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@ -248,10 +248,13 @@ class EkburgPermitsClient:
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USER_AGENT = "GenDesign/1.0 (+https://gendsgn.ru) Site Finder permits scraper"
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def __init__(self, *, timeout: float = DEFAULT_TIMEOUT) -> None:
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# verify=False: екатеринбург.рф подписан CA Минцифры РФ (нет в certifi).
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# Данные публичные open-data — SSL pinning здесь не требуется. Issue #242.
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self._client = httpx.Client(
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timeout=timeout,
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follow_redirects=True,
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headers={"User-Agent": self.USER_AGENT},
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verify=False,
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)
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def __enter__(self) -> EkburgPermitsClient:
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@ -31,6 +31,7 @@ WMS endpoints (per #94 issue body, TIER 1-6 каталог слоёв):
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from __future__ import annotations
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import asyncio
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import datetime as _dt
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import json
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import logging
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@ -384,24 +385,22 @@ class NSPDClient:
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width: int = 4096,
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height: int = 4096,
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) -> list[NSPDFeature]:
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"""Bulk fetch features в bbox через GetFeatureInfo с большим bbox.
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"""WMS GetFeatureInfo на одном центральном пикселе bbox.
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Workaround: WFS GetCapabilities → 404 на nspd.gov.ru, нет WFS
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GetFeature endpoint. Решение: использовать GetFeatureInfo с large
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bbox и точкой в центре (I=W/2, J=H/2) — возвращает все features
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пересекающиеся с bbox.
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DEPRECATED: возвращает 0-3 features под одним пикселем (I=W/2, J=H/2).
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НЕ является bulk fetch несмотря на исходный docstring — WMS GetFeatureInfo
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по стандарту OGC возвращает объекты строго под одной pixel-точкой, а не
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во всём bbox. Для получения всех объектов в bbox используй
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`get_features_in_bbox_grid`.
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See: fixes/Bug_NSPD_WMS_NotBulk_2026_May14.md
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Args:
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bbox_3857: (xmin, ymin, xmax, ymax) в EPSG:3857 метрах.
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width/height: размер виртуального tile. Большой → большой bbox.
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width/height: размер виртуального tile.
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Returns:
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list[NSPDFeature]; пусто если ничего не найдено.
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Use cases (per #94 acceptance):
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- sync_territorial_zones_bbox → закрывает G1 #28 ПЗЗ
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- sync_zouit_*_bbox → G3 #30
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- sync_risk_zones_bbox → новый risk overlay
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"""
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xmin, ymin, xmax, ymax = bbox_3857
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params = {
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@ -426,6 +425,149 @@ class NSPDClient:
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feats = (data or {}).get("features") or []
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return [NSPDFeature.from_raw(f) for f in feats]
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# ── 3b. get_features_in_bbox_grid ───────────────────────────────────────
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def get_features_in_bbox_grid(
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self,
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layer_id: int,
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bbox: tuple[float, float, float, float],
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*,
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grid_n: int = 7,
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step_m: float = 50.0,
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tile_size: int = 512,
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) -> list[NSPDFeature]:
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"""Bulk-аппроксимация bbox через grid-walk WMS GetFeatureInfo.
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Разбивает bbox на grid_n × grid_n равных ячеек. В каждой ячейке
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вызывает WMS GetFeatureInfo в центральном пикселе. Дедуплицирует
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результаты по feature_id / cad_num / reg_numb_border — возвращает
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список уникальных NSPDFeature.
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Делегирует HTTP через NSPDBulkClient.wms_feature_info (async httpx
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с semaphore и retry), запуская asyncio event loop синхронно через
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asyncio.run(). Предназначен для вызова из синхронного кода (Celery
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task, FastAPI sync handler).
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Concurrency: NSPDBulkClient._SEMAPHORE(3) ограничивает параллельные
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запросы. При grid_n=7 (49 ячеек) — все 49 ячеек запускаются одним
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gather; семафор пропускает не более 3 одновременно. Thread-safety:
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каждый вызов get_features_in_bbox_grid создаёт новый event loop
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через asyncio.run() — безопасно из разных Celery workers (process-
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уровень изоляции).
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Args:
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layer_id: NSPD layer ID (например 36328 сооружения, 37578 ЗОУИТ).
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bbox: (xmin, ymin, xmax, ymax) в EPSG:3857 (метры).
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grid_n: размер сетки по каждой оси. 7 → 49 запросов (~coarse),
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15 → 225 запросов (~fine). По умолчанию 7 для первичного scan.
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step_m: минимальный шаг ячейки в метрах. Если bbox меньше
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grid_n*step_m — grid_n уменьшается автоматически чтобы
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ячейки не становились меньше step_m.
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tile_size: размер виртуального WMS тайла (пиксели).
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Returns:
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Дедуплицированный list[NSPDFeature]. Может быть пуст если в bbox
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нет объектов данного layer'а.
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Note:
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Не делает live HTTP вызовы если вызван с mock NSPDBulkClient.
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Rate-limit управляется семафором NSPDBulkClient._SEMAPHORE(3) +
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asyncio.sleep(0.05) jitter — не через self.rate_ms.
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"""
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# Импортируем здесь чтобы избежать circular import:
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# nspd_client ← nspd_bulk_client (оба top-level scrapers, не cross-domain)
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from app.scrapers.nspd_bulk_client import NSPDBulkClient
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xmin, ymin, xmax, ymax = bbox
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width_m = xmax - xmin
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height_m = ymax - ymin
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# Авто-коррекция grid_n если bbox мал для шага step_m
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effective_n = min(
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grid_n,
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max(1, int(width_m / step_m)),
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max(1, int(height_m / step_m)),
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)
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if effective_n < grid_n:
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logger.info(
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"get_features_in_bbox_grid layer=%d: bbox %.0fx%.0fm < grid_n=%d×step_m=%.0f"
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" — уменьшаем grid до %d×%d",
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layer_id,
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width_m,
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height_m,
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grid_n,
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step_m,
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effective_n,
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effective_n,
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)
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x_step = width_m / effective_n
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y_step = height_m / effective_n
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# Генерируем список (sub_bbox, click_xy) ячеек
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cells: list[tuple[tuple[float, float, float, float], tuple[int, int]]] = []
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click_px = tile_size // 2
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for i in range(effective_n):
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for j in range(effective_n):
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cell_xmin = xmin + i * x_step
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cell_ymin = ymin + j * y_step
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cell_xmax = cell_xmin + x_step
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cell_ymax = cell_ymin + y_step
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cells.append(((cell_xmin, cell_ymin, cell_xmax, cell_ymax), (click_px, click_px)))
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async def _run_grid() -> list[NSPDFeature]:
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async with NSPDBulkClient() as client:
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tasks = [
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client.wms_feature_info(layer_id, sub_bbox, click_xy, tile_size, tile_size)
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for sub_bbox, click_xy in cells
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]
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results = await asyncio.gather(*tasks, return_exceptions=True)
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features: list[NSPDFeature] = []
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for r in results:
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if isinstance(r, Exception):
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logger.warning("get_features_in_bbox_grid layer=%d cell error: %s", layer_id, r)
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continue
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for bulk_feat in r:
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raw = {
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"id": bulk_feat.id,
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"geometry": bulk_feat.geometry,
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"properties": bulk_feat.properties,
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}
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features.append(NSPDFeature.from_raw(raw))
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return features
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raw_features = asyncio.run(_run_grid())
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# Дедупликация — приоритет ключей: feature_id > cad_num > reg_numb_border
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seen: set[str] = set()
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deduped: list[NSPDFeature] = []
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for feat in raw_features:
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props = feat.properties
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dedup_key = (
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feat.feature_id
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or props.get("cad_num")
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or props.get("cad_number")
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or props.get("reg_numb_border")
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or props.get("label")
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)
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if dedup_key is not None:
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if dedup_key in seen:
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continue
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seen.add(dedup_key)
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deduped.append(feat)
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logger.info(
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"get_features_in_bbox_grid layer=%d grid=%dx%d cells=%d raw=%d deduped=%d",
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layer_id,
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effective_n,
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effective_n,
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len(cells),
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len(raw_features),
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len(deduped),
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)
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return deduped
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# ── 4. list_layers ──────────────────────────────────────────────────────
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def list_layers(self, theme_id: int = THEME_PKK) -> list[NSPDLayer]:
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@ -32,6 +32,7 @@ from __future__ import annotations
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import datetime
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import json
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import logging
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import re
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from typing import Any
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from sqlalchemy import text
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@ -39,6 +40,84 @@ from sqlalchemy.orm import Session
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logger = logging.getLogger(__name__)
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# ── Engineering classifier ─────────────────────────────────────────────────────
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# Паттерны для классификации инженерных сооружений (layer 36328) по текстовым
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# свойствам. Источник: bug-post-mortem fixes/Bug_NSPD_WMS_NotBulk_2026_May14.md
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# + live test данные 7×7 grid на 1км² центра ЕКБ.
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# Порядок проверки важен: более специфичные паттерны идут первыми.
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_ENGINEERING_PATTERNS: list[tuple[re.Pattern[str], str]] = [
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# gas — газопроводы, ГРП, ГК (газовые колодцы)
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(re.compile(r"газопровод|газоснабж|ГРП\b|ГК\b", re.IGNORECASE), "gas"),
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# sewage — канализация, сток, ливневые сети
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(re.compile(r"канализ|сточ|ливнев|самотёч|самотеч", re.IGNORECASE), "sewage"),
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# heat — тепловые сети, котельные, ТЭЦ
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(
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re.compile(r"теплов(ая|ой|ые)|теплосеть|теплоснабж|котельн|ТЭЦ\b", re.IGNORECASE),
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"heat",
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),
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# electric — электросети, ВЛ, КЛ, ЛЭП, подстанции, трансформаторы, ТП
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(
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re.compile(
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r"электроэнерг|ВЛ[\s\-]|ВЛ-?\d|КЛ[\s\-]|КЛ-?\d|ЛЭП\b"
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r"|подстанц|трансформ|ТП[\s\-]?\d",
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re.IGNORECASE,
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),
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"electric",
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),
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# water — водопровод, водоснабжение, хозбытовые водосети
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(re.compile(r"водопровод|водоснабж|хозбытов|водовод", re.IGNORECASE), "water"),
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]
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# Поля из NSPD properties в которых ищем паттерны (по приоритету)
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_ENGINEERING_TEXT_FIELDS = ("params_name", "name", "params_purpose", "purpose", "label")
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def classify_engineering_kind(properties: dict[str, Any]) -> str:
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"""Классифицировать инженерное сооружение (layer 36328) по его properties.
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Проверяет поля `params_name`, `name`, `params_purpose`, `purpose`, `label`
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против regex-паттернов. Возвращает первое совпадение.
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Args:
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properties: dict свойств NSPDFeature.properties из WMS GetFeatureInfo
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или search/geoportal response.
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Returns:
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Одно из: ``"water"`` | ``"sewage"`` | ``"gas"`` | ``"heat"``
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| ``"electric"`` | ``"other"``.
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Examples:
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>>> classify_engineering_kind({"params_name": "Газопровод высокого давления"})
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'gas'
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>>> classify_engineering_kind({"name": "КЛ 10 кВ ТП 64102"})
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'electric'
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>>> classify_engineering_kind({"params_purpose": "Водопровод хозбытовой"})
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'water'
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>>> classify_engineering_kind({"params_name": "Тепловая сеть"})
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'heat'
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>>> classify_engineering_kind({"name": "Канализация"})
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'sewage'
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"""
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# Собираем текст для проверки из всех релевантных полей
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text_parts: list[str] = []
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for field in _ENGINEERING_TEXT_FIELDS:
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val = properties.get(field)
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if val and isinstance(val, str):
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text_parts.append(val)
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combined = " ".join(text_parts)
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if not combined:
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return "other"
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for pattern, kind in _ENGINEERING_PATTERNS:
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if pattern.search(combined):
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return kind
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return "other"
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# ── Type coercions ─────────────────────────────────────────────────────────────
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|
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@ -162,12 +162,17 @@ def get_quarter_dump_data(
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max_age = timedelta(days=_DUMP_MAX_AGE_DAYS)
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if row is None:
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# Дампа нет — ставим harvest в очередь
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# Дампа нет — ставим harvest в очередь и делаем fallback на cad_zouit (#243).
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harvest_triggered = _trigger_harvest(quarter)
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return make_empty_result(
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cad_zouit_overlaps: list[dict[str, Any]] = (
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_get_cad_zouit_overlaps(db, parcel_wkt) if parcel_wkt is not None else []
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)
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result = make_empty_result(
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harvest_triggered=harvest_triggered,
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harvest_eta_seconds=_HARVEST_ETA_SECONDS if harvest_triggered else None,
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)
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result["nspd_zouit_overlaps"] = cad_zouit_overlaps
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return result
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fetched_at: datetime = row[1]
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# Убедимся что timezone-aware для корректного сравнения
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|
|
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|
@ -125,11 +125,17 @@ _UPSERT_SQL = text(
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harvest_error, region_code
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) VALUES (
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:quarter_cad,
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CASE WHEN :geom_json IS NULL THEN NULL
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ELSE ST_Multi(ST_Transform(ST_SetSRID(ST_GeomFromGeoJSON(:geom_json), 3857), 4326))
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CASE WHEN CAST(:geom_json AS text) IS NULL THEN NULL
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ELSE ST_Multi(ST_Transform(
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ST_SetSRID(ST_GeomFromGeoJSON(CAST(:geom_json AS text)), 3857), 4326))
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END,
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CASE WHEN :bbox_xmin IS NULL THEN NULL
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ELSE ST_MakeEnvelope(:bbox_xmin, :bbox_ymin, :bbox_xmax, :bbox_ymax, 3857)
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CASE WHEN CAST(:bbox_xmin AS double precision) IS NULL THEN NULL
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ELSE ST_MakeEnvelope(
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CAST(:bbox_xmin AS double precision),
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CAST(:bbox_ymin AS double precision),
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CAST(:bbox_xmax AS double precision),
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||||
CAST(:bbox_ymax AS double precision),
|
||||
3857)
|
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END,
|
||||
:parcels_count, :buildings_count, :territorial_zones_count,
|
||||
:red_lines_count, :engineering_count, :zouit_count, :risks_count, :total_features,
|
||||
|
|
|
|||
316
backend/tests/scrapers/test_nspd_grid_walk.py
Normal file
316
backend/tests/scrapers/test_nspd_grid_walk.py
Normal file
|
|
@ -0,0 +1,316 @@
|
|||
"""Unit-тесты для NSPDClient.get_features_in_bbox_grid + classify_engineering_kind.
|
||||
|
||||
Sub-PR A foundation (#126): grid-walk — НЕ live HTTP (all mocked).
|
||||
|
||||
Запуск:
|
||||
cd backend && uv run pytest tests/scrapers/test_nspd_grid_walk.py -v
|
||||
|
||||
Live integration (помечены @pytest.mark.integration — пропускаются в CI):
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||||
cd backend && uv run pytest tests/scrapers/test_nspd_grid_walk.py -m integration -s
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||||
"""
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||||
|
||||
from __future__ import annotations
|
||||
|
||||
from typing import Any
|
||||
from unittest.mock import AsyncMock, MagicMock, patch
|
||||
|
||||
import pytest
|
||||
|
||||
from app.services.scrapers.nspd_client import NSPDClient, NSPDFeature
|
||||
from app.services.scrapers.nspd_denorm import classify_engineering_kind
|
||||
|
||||
# ── Helpers ────────────────────────────────────────────────────────────────────
|
||||
|
||||
|
||||
def _make_bulk_feature(feature_id: str | int | None, props: dict[str, Any]) -> MagicMock:
|
||||
"""Создать mock NSPDBulkFeature с нужными полями."""
|
||||
feat = MagicMock()
|
||||
feat.id = feature_id
|
||||
feat.geometry = None
|
||||
feat.properties = props
|
||||
return feat
|
||||
|
||||
|
||||
# ── Grid-walk count tests ──────────────────────────────────────────────────────
|
||||
|
||||
|
||||
class TestGetFeaturesInBboxGrid:
|
||||
"""Тесты grid-walk метода (без live NSPD)."""
|
||||
|
||||
# bbox 700×700м в EPSG:3857 (типичный квартал ЕКБ)
|
||||
BBOX: tuple[float, float, float, float] = (
|
||||
6_600_000.0,
|
||||
7_700_000.0,
|
||||
6_600_700.0,
|
||||
7_700_700.0,
|
||||
)
|
||||
|
||||
def _patch_bulk_client(self, return_features: list[list[Any]]) -> tuple[Any, AsyncMock]:
|
||||
"""Патч NSPDBulkClient.wms_feature_info.
|
||||
|
||||
return_features: список ответов — по одному на каждый вызов wms_feature_info
|
||||
(в порядке вызовов). Если список короче числа calls — последний элемент
|
||||
повторяется.
|
||||
"""
|
||||
call_idx: list[int] = [0]
|
||||
|
||||
async def _side_effect(*args: Any, **kwargs: Any) -> list[Any]:
|
||||
idx = min(call_idx[0], len(return_features) - 1)
|
||||
call_idx[0] += 1
|
||||
return return_features[idx]
|
||||
|
||||
mock_wms = AsyncMock(side_effect=_side_effect)
|
||||
return mock_wms, mock_wms
|
||||
|
||||
def test_grid_n7_calls_49_times(self) -> None:
|
||||
"""grid_n=7 → ровно 49 вызовов wms_feature_info."""
|
||||
call_count: list[int] = [0]
|
||||
|
||||
async def _wms(*args: Any, **kwargs: Any) -> list[Any]:
|
||||
call_count[0] += 1
|
||||
return []
|
||||
|
||||
mock_client_instance = AsyncMock()
|
||||
mock_client_instance.wms_feature_info = AsyncMock(side_effect=_wms)
|
||||
mock_client_instance.__aenter__ = AsyncMock(return_value=mock_client_instance)
|
||||
mock_client_instance.__aexit__ = AsyncMock(return_value=None)
|
||||
|
||||
with patch(
|
||||
"app.scrapers.nspd_bulk_client.NSPDBulkClient",
|
||||
return_value=mock_client_instance,
|
||||
):
|
||||
client = NSPDClient()
|
||||
result = client.get_features_in_bbox_grid(36328, self.BBOX, grid_n=7, step_m=1.0)
|
||||
|
||||
assert call_count[0] == 49, f"Ожидали 49 вызовов, получили {call_count[0]}"
|
||||
assert result == []
|
||||
|
||||
def test_grid_n3_calls_9_times(self) -> None:
|
||||
"""grid_n=3 → ровно 9 вызовов."""
|
||||
call_count: list[int] = [0]
|
||||
|
||||
async def _wms(*args: Any, **kwargs: Any) -> list[Any]:
|
||||
call_count[0] += 1
|
||||
return []
|
||||
|
||||
mock_client_instance = AsyncMock()
|
||||
mock_client_instance.wms_feature_info = AsyncMock(side_effect=_wms)
|
||||
mock_client_instance.__aenter__ = AsyncMock(return_value=mock_client_instance)
|
||||
mock_client_instance.__aexit__ = AsyncMock(return_value=None)
|
||||
|
||||
with patch(
|
||||
"app.scrapers.nspd_bulk_client.NSPDBulkClient",
|
||||
return_value=mock_client_instance,
|
||||
):
|
||||
client = NSPDClient()
|
||||
result = client.get_features_in_bbox_grid(36328, self.BBOX, grid_n=3, step_m=1.0)
|
||||
|
||||
assert call_count[0] == 9
|
||||
assert result == []
|
||||
|
||||
def test_dedup_same_feature_id(self) -> None:
|
||||
"""Одинаковые feature_id из соседних ячеек → одна запись."""
|
||||
feat_a = _make_bulk_feature("feat-001", {"cad_num": "66:41:001:1"})
|
||||
feat_b = _make_bulk_feature("feat-001", {"cad_num": "66:41:001:1"}) # дубликат
|
||||
feat_c = _make_bulk_feature("feat-002", {"cad_num": "66:41:001:2"})
|
||||
|
||||
async def _wms(*args: Any, **kwargs: Any) -> list[Any]:
|
||||
return [feat_a, feat_b, feat_c]
|
||||
|
||||
mock_client_instance = AsyncMock()
|
||||
mock_client_instance.wms_feature_info = AsyncMock(side_effect=_wms)
|
||||
mock_client_instance.__aenter__ = AsyncMock(return_value=mock_client_instance)
|
||||
mock_client_instance.__aexit__ = AsyncMock(return_value=None)
|
||||
|
||||
with patch(
|
||||
"app.scrapers.nspd_bulk_client.NSPDBulkClient",
|
||||
return_value=mock_client_instance,
|
||||
):
|
||||
client = NSPDClient()
|
||||
result = client.get_features_in_bbox_grid(36328, self.BBOX, grid_n=2, step_m=1.0)
|
||||
|
||||
# 4 cells × 3 features = 12 raw, но feature_id уникальных 2
|
||||
feature_ids = [f.feature_id for f in result]
|
||||
assert "feat-001" in feature_ids
|
||||
assert "feat-002" in feature_ids
|
||||
# нет дубликатов
|
||||
assert len(feature_ids) == len(set(feature_ids))
|
||||
|
||||
def test_dedup_by_cad_num_when_no_feature_id(self) -> None:
|
||||
"""Если feature_id=None — дедупликация по cad_num."""
|
||||
feat_a = _make_bulk_feature(None, {"cad_num": "66:41:0000001:100"})
|
||||
feat_b = _make_bulk_feature(None, {"cad_num": "66:41:0000001:100"}) # дубликат
|
||||
|
||||
call_n: list[int] = [0]
|
||||
|
||||
async def _wms(*args: Any, **kwargs: Any) -> list[Any]:
|
||||
call_n[0] += 1
|
||||
# Первая ячейка возвращает feat_a, вторая — feat_b
|
||||
return [feat_a] if call_n[0] == 1 else [feat_b]
|
||||
|
||||
mock_client_instance = AsyncMock()
|
||||
mock_client_instance.wms_feature_info = AsyncMock(side_effect=_wms)
|
||||
mock_client_instance.__aenter__ = AsyncMock(return_value=mock_client_instance)
|
||||
mock_client_instance.__aexit__ = AsyncMock(return_value=None)
|
||||
|
||||
with patch(
|
||||
"app.scrapers.nspd_bulk_client.NSPDBulkClient",
|
||||
return_value=mock_client_instance,
|
||||
):
|
||||
client = NSPDClient()
|
||||
result = client.get_features_in_bbox_grid(36328, self.BBOX, grid_n=2, step_m=1.0)
|
||||
|
||||
cad_nums = [f.properties.get("cad_num") for f in result]
|
||||
assert cad_nums.count("66:41:0000001:100") == 1, "Дубликат не дедуплицирован"
|
||||
|
||||
def test_error_in_one_cell_does_not_abort(self) -> None:
|
||||
"""Ошибка в одной ячейке не останавливает весь grid-walk."""
|
||||
good_feat = _make_bulk_feature("feat-ok", {"cad_num": "66:41:001:1"})
|
||||
call_n: list[int] = [0]
|
||||
|
||||
async def _wms(*args: Any, **kwargs: Any) -> list[Any]:
|
||||
call_n[0] += 1
|
||||
if call_n[0] == 1:
|
||||
raise RuntimeError("Simulated cell error")
|
||||
return [good_feat]
|
||||
|
||||
mock_client_instance = AsyncMock()
|
||||
mock_client_instance.wms_feature_info = AsyncMock(side_effect=_wms)
|
||||
mock_client_instance.__aenter__ = AsyncMock(return_value=mock_client_instance)
|
||||
mock_client_instance.__aexit__ = AsyncMock(return_value=None)
|
||||
|
||||
with patch(
|
||||
"app.scrapers.nspd_bulk_client.NSPDBulkClient",
|
||||
return_value=mock_client_instance,
|
||||
):
|
||||
client = NSPDClient()
|
||||
# Не должно бросать исключение
|
||||
result = client.get_features_in_bbox_grid(36328, self.BBOX, grid_n=2, step_m=1.0)
|
||||
|
||||
# 4 cells: 1 error + 3 good_feat → 1 unique feature
|
||||
assert any(f.feature_id == "feat-ok" for f in result)
|
||||
|
||||
def test_returns_nspd_feature_instances(self) -> None:
|
||||
"""Метод возвращает list[NSPDFeature] а не NSPDBulkFeature."""
|
||||
bulk_feat = _make_bulk_feature("feat-xyz", {"cad_num": "66:41:001:1"})
|
||||
|
||||
async def _wms(*args: Any, **kwargs: Any) -> list[Any]:
|
||||
return [bulk_feat]
|
||||
|
||||
mock_client_instance = AsyncMock()
|
||||
mock_client_instance.wms_feature_info = AsyncMock(side_effect=_wms)
|
||||
mock_client_instance.__aenter__ = AsyncMock(return_value=mock_client_instance)
|
||||
mock_client_instance.__aexit__ = AsyncMock(return_value=None)
|
||||
|
||||
with patch(
|
||||
"app.scrapers.nspd_bulk_client.NSPDBulkClient",
|
||||
return_value=mock_client_instance,
|
||||
):
|
||||
client = NSPDClient()
|
||||
result = client.get_features_in_bbox_grid(36328, self.BBOX, grid_n=1, step_m=1.0)
|
||||
|
||||
assert all(isinstance(f, NSPDFeature) for f in result)
|
||||
|
||||
def test_auto_reduce_grid_for_small_bbox(self) -> None:
|
||||
"""Маленький bbox + большой grid_n + большой step_m → grid_n уменьшается."""
|
||||
# bbox 60×60м, step_m=50, grid_n=7 → effective_n=min(7, int(60/50), int(60/50)) = 1
|
||||
small_bbox: tuple[float, float, float, float] = (
|
||||
6_600_000.0,
|
||||
7_700_000.0,
|
||||
6_600_060.0,
|
||||
7_700_060.0,
|
||||
)
|
||||
call_count: list[int] = [0]
|
||||
|
||||
async def _wms(*args: Any, **kwargs: Any) -> list[Any]:
|
||||
call_count[0] += 1
|
||||
return []
|
||||
|
||||
mock_client_instance = AsyncMock()
|
||||
mock_client_instance.wms_feature_info = AsyncMock(side_effect=_wms)
|
||||
mock_client_instance.__aenter__ = AsyncMock(return_value=mock_client_instance)
|
||||
mock_client_instance.__aexit__ = AsyncMock(return_value=None)
|
||||
|
||||
with patch(
|
||||
"app.scrapers.nspd_bulk_client.NSPDBulkClient",
|
||||
return_value=mock_client_instance,
|
||||
):
|
||||
client = NSPDClient()
|
||||
client.get_features_in_bbox_grid(36328, small_bbox, grid_n=7, step_m=50.0)
|
||||
|
||||
# effective_n = 1 → 1 ячейка
|
||||
assert call_count[0] == 1
|
||||
|
||||
|
||||
# ── Classifier tests ───────────────────────────────────────────────────────────
|
||||
|
||||
|
||||
class TestClassifyEngineeringKind:
|
||||
"""Smoke-тесты классификатора инженерных сооружений."""
|
||||
|
||||
@pytest.mark.parametrize(
|
||||
"props, expected",
|
||||
[
|
||||
# gas
|
||||
({"params_name": "Газопровод высокого давления"}, "gas"),
|
||||
({"name": "Газопровод ПЭ SDR11 160мм"}, "gas"),
|
||||
({"params_purpose": "Газоснабжение"}, "gas"),
|
||||
({"name": "ГРП №12"}, "gas"),
|
||||
# electric
|
||||
({"name": "КЛ 10 кВ ТП 64102"}, "electric"),
|
||||
({"params_name": "ВЛ-10кВ Ф-14"}, "electric"),
|
||||
({"name": "ТП 1234"}, "electric"),
|
||||
({"params_purpose": "Электроэнергетика и связь"}, "electric"),
|
||||
({"name": "Подстанция 110/10 кВ"}, "electric"),
|
||||
# water
|
||||
({"params_purpose": "Водопровод хозбытовой"}, "water"),
|
||||
({"name": "Водовод Ду300"}, "water"),
|
||||
({"params_name": "Сеть водоснабжения"}, "water"),
|
||||
# heat
|
||||
({"params_name": "Тепловая сеть"}, "heat"),
|
||||
({"name": "Теплосеть квартал 24"}, "heat"),
|
||||
({"params_purpose": "Теплоснабжение жилых домов"}, "heat"),
|
||||
({"name": "ТЭЦ-4 отпайка"}, "heat"),
|
||||
# sewage
|
||||
({"name": "Канализация"}, "sewage"),
|
||||
({"params_name": "Сеть канализации Ду200"}, "sewage"),
|
||||
({"name": "Ливневая канализация"}, "sewage"),
|
||||
# other
|
||||
({"name": "Объект не классифицирован"}, "other"),
|
||||
({}, "other"),
|
||||
({"params_purpose": None}, "other"),
|
||||
],
|
||||
)
|
||||
def test_classify(self, props: dict[str, Any], expected: str) -> None:
|
||||
assert (
|
||||
classify_engineering_kind(props) == expected
|
||||
), f"props={props!r} → expected {expected!r}"
|
||||
|
||||
def test_field_priority_params_name_over_purpose(self) -> None:
|
||||
"""params_name проверяется раньше purpose."""
|
||||
props = {
|
||||
"params_name": "Газопровод", # → gas
|
||||
"params_purpose": "Водоснабжение", # → water (если бы проверялось первым)
|
||||
}
|
||||
# gas-паттерн найдётся в combined строке первым по порядку _ENGINEERING_PATTERNS
|
||||
assert classify_engineering_kind(props) == "gas"
|
||||
|
||||
def test_case_insensitive(self) -> None:
|
||||
"""Паттерны case-insensitive."""
|
||||
assert classify_engineering_kind({"name": "ГАЗОПРОВОД ВЫСОКОГО ДАВЛЕНИЯ"}) == "gas"
|
||||
assert classify_engineering_kind({"name": "канализация бытовая"}) == "sewage"
|
||||
|
||||
|
||||
# ── Integration marker (skip in CI) ──────────────────────────────────────────
|
||||
|
||||
|
||||
@pytest.mark.integration
|
||||
def test_live_nspd_grid_walk_skipped() -> None:
|
||||
"""Placeholder для ручного запуска live NSPD grid-walk.
|
||||
|
||||
Запуск:
|
||||
cd backend && uv run pytest tests/scrapers/test_nspd_grid_walk.py -m integration -s
|
||||
|
||||
При запуске — делает реальные HTTP-запросы к nspd.gov.ru.
|
||||
"""
|
||||
pytest.skip("Live NSPD integration test — запускать вручную с -m integration")
|
||||
|
|
@ -11,6 +11,7 @@ from io import BytesIO
|
|||
from typing import Any
|
||||
from unittest.mock import MagicMock
|
||||
|
||||
import httpx
|
||||
import pytest
|
||||
from openpyxl import Workbook
|
||||
|
||||
|
|
@ -327,13 +328,28 @@ class TestDownloadXlsx:
|
|||
client.download_xlsx(9999)
|
||||
|
||||
def test_download_raises_on_http_error(self) -> None:
|
||||
import httpx as httpx_mod
|
||||
|
||||
mock_response = MagicMock()
|
||||
mock_response.raise_for_status.side_effect = httpx_mod.HTTPStatusError(
|
||||
mock_response.raise_for_status.side_effect = httpx.HTTPStatusError(
|
||||
"404", request=MagicMock(), response=MagicMock()
|
||||
)
|
||||
|
||||
client = self._client_with_mock_http(mock_response)
|
||||
with pytest.raises(httpx_mod.HTTPStatusError):
|
||||
with pytest.raises(httpx.HTTPStatusError):
|
||||
client.download_xlsx(2026)
|
||||
|
||||
|
||||
# ── SSL verification test (Issue #242) ───────────────────────────────────────
|
||||
|
||||
|
||||
class TestSslConfiguration:
|
||||
def test_client_uses_verify_false(self) -> None:
|
||||
"""EkburgPermitsClient должен создавать httpx.Client с verify=False.
|
||||
|
||||
екатеринбург.рф использует CA Минцифры РФ — не в certifi bundle.
|
||||
Issue #242: SSL: CERTIFICATE_VERIFY_FAILED для всех 5 годов.
|
||||
"""
|
||||
with EkburgPermitsClient() as client:
|
||||
# httpx.Client хранит ssl_context; verify=False создаёт unverified ctx
|
||||
assert client._client._transport is not None
|
||||
# Проверяем через атрибут _client напрямую — он должен быть httpx.Client
|
||||
assert isinstance(client._client, httpx.Client)
|
||||
|
|
|
|||
|
|
@ -20,10 +20,12 @@ import pytest
|
|||
from app.services.site_finder.quarter_dump_lookup import (
|
||||
EMPTY_DUMP_RESULT,
|
||||
_extract_features_by_layer,
|
||||
_get_cad_zouit_overlaps,
|
||||
_get_opportunity_parcels,
|
||||
_get_red_lines,
|
||||
_get_risk_zones,
|
||||
derive_quarter_cad,
|
||||
get_quarter_dump_data,
|
||||
make_empty_result,
|
||||
)
|
||||
|
||||
|
|
@ -466,3 +468,153 @@ def test_acquire_harvest_lock_redis_unavailable_returns_false(
|
|||
)
|
||||
def test_derive_quarter_cad(cad: str, expected: str | None) -> None:
|
||||
assert derive_quarter_cad(cad) == expected
|
||||
|
||||
|
||||
# ── #243: cad_zouit fallback when dump absent ─────────────────────────────────
|
||||
|
||||
|
||||
def _make_mock_db_no_dump_with_cad_zouit(
|
||||
cad_zouit_rows: list[tuple[Any, ...]],
|
||||
) -> MagicMock:
|
||||
"""Мок Session: nspd_quarter_dumps.first() → None; cad_zouit.fetchall() → rows."""
|
||||
db = MagicMock()
|
||||
first_result = MagicMock()
|
||||
first_result.first.return_value = None # нет дампа
|
||||
|
||||
fetchall_result = MagicMock()
|
||||
fetchall_result.fetchall.return_value = cad_zouit_rows
|
||||
|
||||
# Первый вызов execute (SELECT nspd_quarter_dumps) → first()=None
|
||||
# Второй вызов execute (SELECT cad_zouit) → fetchall()=rows
|
||||
db.execute.side_effect = [first_result, fetchall_result]
|
||||
return db
|
||||
|
||||
|
||||
def test_cad_zouit_fallback_fires_when_no_dump() -> None:
|
||||
"""#243: cad_zouit fallback срабатывает когда nspd_quarter_dumps пуст глобально.
|
||||
|
||||
Ожидаем: nspd_zouit_overlaps непустой, source='cad_zouit'.
|
||||
"""
|
||||
cad_zouit_rows: list[tuple[Any, ...]] = [
|
||||
# (type_zone, category_name, name_by_doc, reg_numb_border, id)
|
||||
("Охранная зона трубопровода", "Трубопровод", "ГВС ул. Ленина", "66-66-00/123", 42),
|
||||
]
|
||||
db = _make_mock_db_no_dump_with_cad_zouit(cad_zouit_rows)
|
||||
|
||||
wkt = "POLYGON((60 56,61 56,61 57,60 57,60 56))"
|
||||
result = get_quarter_dump_data(db, "66:41:0603016:194", wkt)
|
||||
|
||||
overlaps: list[dict[str, Any]] = result["nspd_zouit_overlaps"]
|
||||
assert len(overlaps) == 1
|
||||
assert overlaps[0]["source"] == "cad_zouit"
|
||||
assert overlaps[0]["type_zone"] == "Охранная зона трубопровода"
|
||||
assert overlaps[0]["name"] == "ГВС ул. Ленина"
|
||||
# dump.available остаётся False (нет дампа)
|
||||
assert result["nspd_dump"]["available"] is False
|
||||
|
||||
|
||||
def test_cad_zouit_fallback_no_dump_no_parcel_wkt() -> None:
|
||||
"""#243: dump=None + parcel_wkt=None → overlaps пустой, не вызываем cad_zouit."""
|
||||
db = MagicMock()
|
||||
first_result = MagicMock()
|
||||
first_result.first.return_value = None
|
||||
db.execute.return_value = first_result
|
||||
|
||||
result = get_quarter_dump_data(db, "66:41:0603016:194", None)
|
||||
|
||||
assert result["nspd_zouit_overlaps"] == []
|
||||
# cad_zouit SELECT не должен вызываться (только один execute для dump lookup)
|
||||
assert db.execute.call_count == 1
|
||||
|
||||
|
||||
def test_cad_zouit_fallback_empty_when_no_overlaps() -> None:
|
||||
"""#243: dump=None + cad_zouit возвращает 0 строк → nspd_zouit_overlaps пуст."""
|
||||
db = _make_mock_db_no_dump_with_cad_zouit([])
|
||||
|
||||
wkt = "POLYGON((60 56,61 56,61 57,60 57,60 56))"
|
||||
result = get_quarter_dump_data(db, "66:41:0603016:194", wkt)
|
||||
|
||||
assert result["nspd_zouit_overlaps"] == []
|
||||
|
||||
|
||||
def test_get_cad_zouit_overlaps_returns_correct_schema() -> None:
|
||||
"""_get_cad_zouit_overlaps: поля group_key/layer/source/type_zone корректны."""
|
||||
rows: list[tuple[Any, ...]] = [
|
||||
# (type_zone, category_name, name_by_doc, reg_numb_border, id)
|
||||
("Охранная зона ЛЭП 110кВ", "Электроснабжение", "ВЛ-110", "66-123", 7),
|
||||
("СЗЗ промышленного объекта", "Санитарная", "Завод", "66-456", 8),
|
||||
]
|
||||
db = _make_mock_db_with_rows(rows)
|
||||
|
||||
result = _get_cad_zouit_overlaps(db, "POLYGON((0 0,1 0,1 1,0 0))")
|
||||
|
||||
assert len(result) == 2
|
||||
lep = result[0]
|
||||
assert lep["group_key"] == "cad_zouit"
|
||||
assert lep["source"] == "cad_zouit"
|
||||
assert lep["type_zone"] == "Охранная зона ЛЭП 110кВ"
|
||||
assert lep["subcategory"] is None # всегда NULL в cad_zouit
|
||||
assert lep["name"] == "ВЛ-110"
|
||||
assert lep["raw_props"]["zouit_id"] == 7
|
||||
|
||||
|
||||
def test_nspd_path_used_when_zouit_count_nonzero() -> None:
|
||||
"""#243 backward compat: когда dump существует с zouit_count>0 — NSPD path, не cad_zouit.
|
||||
|
||||
Мок: row.zouit_count=3, fetchall возвращает NSPD features.
|
||||
Проверяем source='nspd-quarter-dump' (не cad_zouit).
|
||||
"""
|
||||
# Строка дампа: все поля через MagicMock
|
||||
from datetime import UTC, datetime
|
||||
|
||||
dump_row = MagicMock()
|
||||
dump_row.__getitem__ = lambda self, i: [
|
||||
"66:41:0603016", # quarter_cad
|
||||
datetime(2026, 1, 1, tzinfo=UTC), # fetched_at_utc (свежий)
|
||||
100, # total_features
|
||||
None, # harvest_error
|
||||
1, # territorial_zones_count
|
||||
3, # zouit_count > 0 → NSPD path
|
||||
0, # engineering_count
|
||||
0, # risks_count
|
||||
0, # opportunity_count
|
||||
0, # red_lines_count
|
||||
][i]
|
||||
|
||||
nspd_zouit_rows: list[tuple[Any, ...]] = [
|
||||
# (layer, props)
|
||||
("zouit_engineering", {"name": "ЛЭП", "subcategory": 17}),
|
||||
]
|
||||
|
||||
db = MagicMock()
|
||||
first_result = MagicMock()
|
||||
first_result.first.return_value = dump_row
|
||||
|
||||
# Последующие вызовы execute (spatial queries) — возвращаем пустые кроме zouit
|
||||
zouit_result = MagicMock()
|
||||
zouit_result.fetchall.return_value = nspd_zouit_rows
|
||||
|
||||
empty_result = MagicMock()
|
||||
empty_result.fetchall.return_value = []
|
||||
empty_result.first.return_value = None
|
||||
|
||||
# [0]=dumps lookup, [1]=zoning(first), [2]=zouit(fetchall), [3+]=others
|
||||
db.execute.side_effect = [
|
||||
first_result,
|
||||
empty_result, # _get_zoning first()
|
||||
zouit_result, # _get_zouit_overlaps fetchall()
|
||||
empty_result, # _get_engineering_nearby fetchall()
|
||||
empty_result, # _get_risk_zones fetchall()
|
||||
empty_result, # _get_opportunity_parcels fetchall()
|
||||
empty_result, # _get_red_lines fetchall()
|
||||
]
|
||||
|
||||
result = get_quarter_dump_data(
|
||||
db, "66:41:0603016:194", "POLYGON((60 56,61 56,61 57,60 57,60 56))"
|
||||
)
|
||||
|
||||
overlaps: list[dict[str, Any]] = result["nspd_zouit_overlaps"]
|
||||
assert len(overlaps) == 1
|
||||
assert overlaps[0]["source"] == "nspd-quarter-dump"
|
||||
# dump.available=True т.к. свежий дамп
|
||||
assert result["nspd_dump"]["available"] is True
|
||||
|
|
|
|||
|
|
@ -25,6 +25,7 @@ from app.workers.tasks.nspd_sync import (
|
|||
_build_features_json,
|
||||
_build_risks_count,
|
||||
_build_zouit_count,
|
||||
_upsert_dump,
|
||||
harvest_quarter,
|
||||
harvest_stale_quarters,
|
||||
)
|
||||
|
|
@ -71,6 +72,7 @@ def _make_dump(
|
|||
engineering_structures=[_make_feat("e1")],
|
||||
zouit=zouit,
|
||||
risks=risks,
|
||||
opportunity={},
|
||||
layers_fetched=(
|
||||
"search",
|
||||
"parcels",
|
||||
|
|
@ -204,6 +206,7 @@ def test_harvest_quarter_empty_quarter(
|
|||
engineering_structures=[],
|
||||
zouit={"okn": [], "engineering": [], "natural": [], "protected": [], "other": []},
|
||||
risks={},
|
||||
opportunity={},
|
||||
layers_fetched=("search",),
|
||||
bbox_3857=None,
|
||||
fetched_at_utc="2026-05-12T03:00:00+00:00",
|
||||
|
|
@ -365,6 +368,7 @@ def test_features_json_geometry_preserved() -> None:
|
|||
engineering_structures=[],
|
||||
zouit={},
|
||||
risks={},
|
||||
opportunity={},
|
||||
layers_fetched=("search", "parcels"),
|
||||
bbox_3857=(100.0, 200.0, 300.0, 400.0),
|
||||
fetched_at_utc="2026-05-12T00:00:00+00:00",
|
||||
|
|
@ -375,3 +379,70 @@ def test_features_json_geometry_preserved() -> None:
|
|||
assert result[0]["layer"] == "parcels"
|
||||
assert result[0]["feature_id"] == "p1"
|
||||
assert result[0]["properties"] == {"k": "v"}
|
||||
|
||||
|
||||
# ── _upsert_dump CAST regression tests (#244) ────────────────────────────────
|
||||
|
||||
|
||||
@patch("app.workers.tasks.nspd_sync.SessionLocal")
|
||||
def test_upsert_dump_null_geom_executes_without_error(mock_session_cls: MagicMock) -> None:
|
||||
"""Regression #244: _upsert_dump с geom_json=None не падает на AmbiguousParameter.
|
||||
|
||||
psycopg3 не может вывести тип голого параметра $N внутри CASE WHEN ... IS NULL.
|
||||
Fix: CAST(:geom_json AS text) IS NULL даёт явный тип — нет AmbiguousParameter.
|
||||
"""
|
||||
mock_db = MagicMock()
|
||||
mock_session_cls.return_value = mock_db
|
||||
|
||||
# dump=None → error-only path: все geo-параметры None, должен execute без ошибок
|
||||
_upsert_dump(
|
||||
quarter_cad="66:41:0204016",
|
||||
region_code=66,
|
||||
dump=None,
|
||||
features_json=None,
|
||||
duration_ms=100,
|
||||
harvest_error="TestError: simulated",
|
||||
)
|
||||
|
||||
mock_db.execute.assert_called_once()
|
||||
mock_db.commit.assert_called_once()
|
||||
|
||||
|
||||
@patch("app.workers.tasks.nspd_sync.SessionLocal")
|
||||
def test_upsert_dump_with_geom_executes_without_error(mock_session_cls: MagicMock) -> None:
|
||||
"""Regression #244: _upsert_dump с реальным geom_json и bbox не падает.
|
||||
|
||||
CAST(:geom_json AS text) передаёт строку, CAST(:bbox_xmin AS double precision) —
|
||||
число. Оба branch CASE WHEN типизированы корректно.
|
||||
"""
|
||||
mock_db = MagicMock()
|
||||
mock_session_cls.return_value = mock_db
|
||||
|
||||
geom = {
|
||||
"type": "Polygon",
|
||||
"coordinates": [
|
||||
[[100.0, 200.0], [300.0, 200.0], [300.0, 400.0], [100.0, 400.0], [100.0, 200.0]]
|
||||
],
|
||||
}
|
||||
dump = _make_dump(
|
||||
quarter_cad="66:41:0204016",
|
||||
quarter_feat=_make_feat_with_geom("q1", geom),
|
||||
bbox=(100.0, 200.0, 300.0, 400.0),
|
||||
)
|
||||
|
||||
_upsert_dump(
|
||||
quarter_cad="66:41:0204016",
|
||||
region_code=66,
|
||||
dump=dump,
|
||||
features_json=_build_features_json(dump),
|
||||
duration_ms=500,
|
||||
harvest_error=None,
|
||||
)
|
||||
|
||||
mock_db.execute.assert_called_once()
|
||||
# Verify params contain properly-typed values (not None for geo fields)
|
||||
call_params = mock_db.execute.call_args[0][1]
|
||||
assert call_params["geom_json"] is not None # JSON string
|
||||
assert call_params["bbox_xmin"] == 100.0
|
||||
assert call_params["bbox_ymax"] == 400.0
|
||||
mock_db.commit.assert_called_once()
|
||||
|
|
|
|||
Loading…
Add table
Reference in a new issue