import json import os import pandas as pd import geopandas as gpd import numpy as np import re import zipfile from shapely.geometry.base import BaseGeometry from shapely.geometry import base as shapely_base from fastapi import File, Form, UploadFile, HTTPException from core.config import UPLOAD_FOLDER, MAX_FILE_MB, VALID_WKT_PREFIXES from services.upload_file.readers.reader_csv import read_csv from services.upload_file.readers.reader_shp import read_shp from services.upload_file.readers.reader_gdb import read_gdb from services.upload_file.readers.reader_mpk import read_mpk from services.upload_file.readers.reader_pdf import convert_df, read_pdf from services.upload_file.utils.geometry_detector import detect_and_build_geometry from services.upload_file.utils.geometry_detector import attach_polygon_geometry_auto from database.connection import engine from database.models import Base from pydantic import BaseModel from typing import List, Optional from shapely import wkt from sqlalchemy import text from datetime import datetime from response import successRes, errorRes # Base.metadata.create_all(bind=engine) def is_geom_empty(g): if g is None: return True if isinstance(g, float) and pd.isna(g): return True if isinstance(g, BaseGeometry): return g.is_empty return False def safe_json(value): """Konversi aman untuk semua tipe numpy/pandas/shapely ke tipe JSON-serializable""" if isinstance(value, (np.int64, np.int32)): return int(value) if isinstance(value, (np.float64, np.float32)): return float(value) if isinstance(value, pd.Timestamp): return value.isoformat() if isinstance(value, shapely_base.BaseGeometry): return str(value) # convert to WKT string if pd.isna(value): return None return value def detect_zip_type(zip_path: str) -> str: with zipfile.ZipFile(zip_path, "r") as zip_ref: files = zip_ref.namelist() if any(f.lower().endswith(".gdb/") or ".gdb/" in f.lower() for f in files): return "gdb" if any(f.lower().endswith(ext) for ext in [".gdbtable", ".gdbtablx", ".gdbindexes", ".spx"] for f in files): return "gdb" if any(f.lower().endswith(".shp") for f in files): return "shp" return "unknown" def process_data(df: pd.DataFrame, ext: str): result = detect_and_build_geometry(df, master_polygons=None) if not hasattr(result, "geometry") or result.geometry.isna().all(): result = attach_polygon_geometry_auto(result) if isinstance(result, gpd.GeoDataFrame) and "geometry" in result.columns: geom_type = ", ".join([g for g in result.geometry.geom_type.unique() if g]) \ if not result.empty else "None" null_geom = result.geometry.isna().sum() print(f"[INFO] Tipe Geometry: {geom_type}") print(f"[INFO] Jumlah geometry kosong: {null_geom}") else: res = { "message": "Tidak menemukan tabel yang relevan.", "file_type": ext, "rows": 0, "columns": 0, "geometry_valid": 0, "geometry_empty": 0, "geometry_valid_percent": 0, "warnings": [], "warning_examples": [], "preview": [] } return errorRes(message="Tidak berhasil mencocokan geometry pada tabel." ,details=res, status_code=422) result = result.replace([pd.NA, float('inf'), float('-inf')], None) if isinstance(result, gpd.GeoDataFrame) and 'geometry' in result.columns: result['geometry'] = result['geometry'].apply( lambda g: g.wkt if g is not None else None ) empty_count = result['geometry'].apply(is_geom_empty).sum() valid_count = len(result) - empty_count match_percentage = (valid_count / len(result)) * 100 warnings = [] if empty_count > 0: warnings.append( f"{empty_count} dari {len(result)} baris tidak memiliki geometry yang valid " f"({100 - match_percentage:.2f}% data gagal cocok)." ) if empty_count > 0: examples = result[result['geometry'].apply(is_geom_empty)].head(500) warning_examples = examples.to_dict(orient="records") else: warning_examples = [] preview_data = result.head(10).to_dict(orient="records") # preview_data = result.to_dict(orient="records") preview_safe = [ {k: safe_json(v) for k, v in row.items()} for row in preview_data ] warning_safe = [ {k: safe_json(v) for k, v in row.items()} for row in warning_examples ] response = { "message": "File berhasil dibaca dan dianalisis.", "file_type": ext, "rows": int(len(result)), "columns": list(map(str, result.columns)), "geometry_valid": int(valid_count), "geometry_empty": int(empty_count), "geometry_valid_percent": float(round(match_percentage, 2)), "warnings": warnings, "warning_examples": warning_safe, "preview": preview_safe } # return successRes(content=response) return response async def handle_upload_file(file: UploadFile = File(...), page: Optional[str] = Form(""), sheet: Optional[str] = Form("")): fname = file.filename ext = os.path.splitext(fname)[1].lower() contents = await file.read() size_mb = len(contents) / (1024*1024) if size_mb > MAX_FILE_MB: raise errorRes(status_code=413, message="Ukuran File Terlalu Besar") tmp_path = UPLOAD_FOLDER / fname with open(tmp_path, "wb") as f: f.write(contents) try: df = None print('ext', ext) if ext == ".csv": df = read_csv(str(tmp_path)) elif ext == ".xlsx": df = read_csv(str(tmp_path), sheet) elif ext == ".mpk": df = read_mpk(str(tmp_path)) elif ext == ".pdf": tbl = read_pdf(tmp_path, page) if len(tbl) == 0: res = { "message": "Tidak ditemukan tabel valid", "tables": {}, "file_type": ext } return successRes(message="Tidak ditemukan tabel valid", data=res) elif len(tbl) > 1: res = { "message": "File berhasil dibaca dan dianalisis.", "tables": tbl, "file_type": ext } return successRes(data=res, message="File berhasil dibaca dan dianalisis.") else: df = convert_df(tbl[0]) elif ext == ".zip": zip_type = detect_zip_type(str(tmp_path)) if zip_type == "shp": print("[INFO] ZIP terdeteksi sebagai Shapefile.") df = read_shp(str(tmp_path)) elif zip_type == "gdb": print("[INFO] ZIP terdeteksi sebagai Geodatabase (GDB).") df = read_gdb(str(tmp_path)) else: raise errorRes( status_code=400, message="ZIP file tidak mengandung SHP atau GDB yang valid." ) else: raise errorRes(status_code=400, message="Unsupported file type") if df is None or (hasattr(df, "empty") and df.empty): return successRes(message="File berhasil dibaca, Tetapi tidak ditemukan tabel valid") res = process_data(df, ext) tmp_path.unlink(missing_ok=True) return successRes(data=res) except Exception as e: print(f"[ERROR] {e}") return errorRes( message="Internal Server Error", details=str(e), status_code=500 ) # finally: # db_session.close() class PdfRequest(BaseModel): title: str columns: List[str] rows: List[List] async def handle_process_pdf(payload: PdfRequest): try: df = convert_df(payload.model_dump()) if df is None or (hasattr(df, "empty") and df.empty): return errorRes(message="Tidak ada tabel") res = process_data(df, '.pdf') return successRes(data=res) except Exception as e: print(f"[ERROR] {e}") return errorRes(message="Internal Server Error", details= str(e), status_code=500) # finally: # db_session.close() class UploadRequest(BaseModel): title: str rows: List[dict] columns: List[str] # import time # def handle_to_postgis(payload: UploadRequest): # # time.sleep(2) # # return { # # "table_name": 'test', # # "status": "success", # # "message": f"Tabel test berhasil diunggah ke PostGIS.", # # "total_rows": 999, # # "geometry_type": 'POINT' # # } # try: # table_name = payload.title.lower().replace(" ", "_").replace("-","_") # df = pd.DataFrame(payload.rows) # print(f"[INFO] Diterima {len(df)} baris data dari frontend.") # if "geometry" in df.columns: # df["geometry"] = df["geometry"].apply( # lambda g: wkt.loads(g) if isinstance(g, str) and g.strip().upper().startswith(VALID_WKT_PREFIXES) else None # ) # gdf = gpd.GeoDataFrame(df, geometry="geometry", crs="EPSG:4326") # else: # raise HTTPException(status_code=400, detail="Kolom geometry tidak ditemukan dalam data.") # with engine.begin() as conn: # conn.execute(text(f"DROP TABLE IF EXISTS {table_name}")) # gdf.to_postgis(table_name, engine, if_exists="replace", index=False) # with engine.begin() as conn: # conn.execute(text(f'ALTER TABLE "{table_name}" ADD COLUMN _id SERIAL PRIMARY KEY;')) # print(f"[INFO] Tabel '{table_name}' berhasil dibuat di PostGIS ({len(gdf)} baris).") # return { # "table_name": table_name, # "status": "success", # "message": f"Tabel '{table_name}' berhasil diunggah ke PostGIS.", # "total_rows": len(gdf), # "geometry_type": list(gdf.geom_type.unique()) # } # except Exception as e: # print(f"[ERROR] Gagal upload ke PostGIS: {e}") # raise HTTPException(status_code=500, detail=str(e)) # VALID_WKT_PREFIXES = ("POINT", "LINESTRING", "POLYGON", "MULTIPOLYGON", "MULTILINESTRING") # def handle_to_postgis(payload: UploadRequest, user_id: int = 2): # try: # table_name = "test_partition" # df = pd.DataFrame(payload.rows) # print(f"[INFO] Diterima {len(df)} baris data dari frontend.") # if "geometry" not in df.columns: # raise HTTPException(status_code=400, detail="Kolom geometry tidak ditemukan dalam data.") # df["geometry"] = df["geometry"].apply( # lambda g: wkt.loads(g) if isinstance(g, str) and g.strip().upper().startswith(VALID_WKT_PREFIXES) else None # ) # gdf = gpd.GeoDataFrame(df, geometry="geometry", crs="EPSG:4326") # insert_count = 0 # with engine.begin() as conn: # # 💡 Tambahkan blok auto-create partisi di sini # conn.execute(text(f""" # DO $$ # BEGIN # IF NOT EXISTS ( # SELECT 1 FROM pg_tables WHERE tablename = 'test_partition_user_{user_id}' # ) THEN # EXECUTE format(' # CREATE TABLE test_partition_user_%s # PARTITION OF test_partition # FOR VALUES IN (%s); # ', {user_id}, {user_id}); # EXECUTE format('CREATE INDEX ON test_partition_user_%s USING GIST (geom);', {user_id}); # EXECUTE format('CREATE INDEX ON test_partition_user_%s USING GIN (properties);', {user_id}); # END IF; # END # $$; # """)) # # Lanjut insert data seperti biasa # for _, row in gdf.iterrows(): # geom_wkt = row["geometry"].wkt if row["geometry"] is not None else None # properties = row.drop(labels=["geometry"]).to_dict() # conn.execute( # text(""" # INSERT INTO test_partition (user_id, geom, properties, created_at) # VALUES (:user_id, ST_Force2D(ST_GeomFromText(:geom, 4326)), CAST(:properties AS jsonb), :created_at) # """), # { # "user_id": user_id, # "geom": geom_wkt, # "properties": json.dumps(properties), # "created_at": datetime.utcnow() # } # ) # insert_count += 1 # print(f"[INFO] Berhasil memasukkan {insert_count} baris ke partisi user_id={user_id}.") # return { # "table_name": table_name, # "user_id": user_id, # "status": "success", # "message": f"Data berhasil ditambahkan ke partisi user_id={user_id}.", # "total_rows": insert_count, # "geometry_type": list(gdf.geom_type.unique()) # } # except Exception as e: # print(f"[ERROR] Gagal upload ke PostGIS partition: {e}") # raise HTTPException(status_code=500, detail=str(e)) # Daftar prefix WKT yang valid VALID_WKT_PREFIXES = ("POINT", "LINESTRING", "POLYGON", "MULTIPOLYGON", "MULTILINESTRING") def slugify(value: str) -> str: """Mengubah judul dataset jadi nama aman untuk VIEW""" return re.sub(r'[^a-zA-Z0-9]+', '_', value.lower()).strip('_') # async def create_dataset_view_from_metadata(conn, metadata_id: int, user_id: int, title: str): # """Membuat VIEW PostgreSQL berdasarkan metadata dataset dan registrasi geometry untuk QGIS.""" # norm_title = slugify(title) # view_name = f"v_user_{user_id}_{norm_title}" # base_table = f"test_partition_user_{user_id}" # # 1️⃣ Hapus view lama jika ada # drop_query = text(f"DROP VIEW IF EXISTS {view_name} CASCADE;") # await conn.execute(drop_query) # # 2️⃣ Buat view baru # create_view_query = text(f""" # CREATE OR REPLACE VIEW {view_name} AS # SELECT p.*, m.title, m.year, m.description # FROM {base_table} p # JOIN dataset_metadata m ON m.id = p.metadata_id # WHERE p.metadata_id = {metadata_id}; # """) # await conn.execute(create_view_query) # # 3️⃣ Daftarkan geometry column agar QGIS mengenali layer ini # # (gunakan Populate_Geometry_Columns jika PostGIS >= 3) # populate_query = text(f"SELECT Populate_Geometry_Columns('{view_name}'::regclass);") # await conn.execute(populate_query) # print(f"[INFO] VIEW {view_name} berhasil dibuat dan geometry terdaftar.") async def create_dataset_view_from_metadata(conn, metadata_id: int, user_id: int, title: str): """Buat VIEW dinamis sesuai struktur atribut JSON pada dataset (hindari duplikasi nama kolom).""" norm_title = slugify(title) view_name = f"v_user_{user_id}_{norm_title}" base_table = f"test_partition_user_{user_id}" # Ambil daftar field dari metadata result = await conn.execute(text("SELECT fields FROM dataset_metadata WHERE id=:mid"), {"mid": metadata_id}) fields_json = result.scalar_one_or_none() # --- daftar kolom bawaan dari tabel utama base_columns = {"id", "user_id", "metadata_id", "geom"} columns_sql = "" field_list = [] if fields_json: try: # handle jika data sudah berupa list atau string JSON if isinstance(fields_json, str): field_list = json.loads(fields_json) elif isinstance(fields_json, list): field_list = fields_json else: raise ValueError(f"Tipe data fields_json tidak dikenali: {type(fields_json)}") for f in field_list: safe_col = slugify(f) # Hindari duplikat nama dengan kolom utama if safe_col in base_columns: alias_name = f"attr_{safe_col}" else: alias_name = safe_col columns_sql += f", p.attributes->>'{f}' AS {alias_name}" except Exception as e: print(f"[WARN] Gagal parse field list metadata: {e}") # 1️⃣ Drop view lama await conn.execute(text(f"DROP VIEW IF EXISTS {view_name} CASCADE;")) # 2️⃣ Buat view baru dinamis create_view_query = f""" CREATE OR REPLACE VIEW {view_name} AS SELECT p.id, p.user_id, p.metadata_id, p.geom {columns_sql}, m.title, m.year, m.description FROM {base_table} p JOIN dataset_metadata m ON m.id = p.metadata_id WHERE p.metadata_id = {metadata_id}; """ await conn.execute(text(create_view_query)) # 3️⃣ Register geometry untuk QGIS await conn.execute(text(f"SELECT Populate_Geometry_Columns('{view_name}'::regclass);")) print(f"[INFO] VIEW {view_name} berhasil dibuat (kolom dinamis: {field_list if field_list else '(none)'}).") async def handle_to_postgis(payload, engine, user_id: int = 3): """ Menangani upload data spasial ke PostGIS (dengan partition per user). - Jika partisi belum ada, akan dibuat otomatis - Metadata dataset disimpan di tabel dataset_metadata - Data spasial dimasukkan ke tabel partisi (test_partition_user_{id}) - VIEW otomatis dibuat untuk QGIS """ try: df = pd.DataFrame(payload.rows) print(f"[INFO] Diterima {len(df)} baris data dari frontend.") # --- Validasi kolom geometry --- if "geometry" not in df.columns: raise errorRes(status_code=400, message="Kolom 'geometry' tidak ditemukan dalam data.") # --- Parsing geometry ke objek shapely --- df["geometry"] = df["geometry"].apply( lambda g: wkt.loads(g) if isinstance(g, str) and g.strip().upper().startswith(VALID_WKT_PREFIXES) else None ) # --- Buat GeoDataFrame --- gdf = gpd.GeoDataFrame(df, geometry="geometry", crs="EPSG:4326") # --- Metadata info dari payload --- # dataset_title = getattr(payload, "dataset_title", None) # dataset_year = getattr(payload, "dataset_year", None) # dataset_desc = getattr(payload, "dataset_description", None) dataset_title = "longsor 2020" dataset_year = 2020 dataset_desc = "test metadata" if not dataset_title: raise errorRes(status_code=400, detail="Field 'dataset_title' wajib ada untuk metadata.") async with engine.begin() as conn: fields = [col for col in df.columns if col != "geometry"] # 💾 1️⃣ Simpan Metadata Dataset print("[INFO] Menyimpan metadata dataset...") result = await conn.execute( text(""" INSERT INTO dataset_metadata (user_id, title, year, description, fields, created_at) VALUES (:user_id, :title, :year, :desc, :fields, :created_at) RETURNING id; """), { "user_id": user_id, "title": dataset_title, "year": dataset_year, "desc": dataset_desc, "fields": json.dumps(fields), "created_at": datetime.utcnow(), }, ) metadata_id = result.scalar_one() print(f"[INFO] Metadata disimpan dengan ID {metadata_id}") # ⚙️ 2️⃣ Auto-create Partisi Jika Belum Ada print(f"[INFO] Memastikan partisi test_partition_user_{user_id} tersedia...") await conn.execute( text(f""" DO $$ BEGIN IF NOT EXISTS ( SELECT 1 FROM pg_tables WHERE tablename = 'test_partition_user_{user_id}' ) THEN EXECUTE format(' CREATE TABLE test_partition_user_%s PARTITION OF test_partition FOR VALUES IN (%s); ', {user_id}, {user_id}); EXECUTE format('CREATE INDEX IF NOT EXISTS idx_partition_user_%s_geom ON test_partition_user_%s USING GIST (geom);', {user_id}, {user_id}); EXECUTE format('CREATE INDEX IF NOT EXISTS idx_partition_user_%s_metadata ON test_partition_user_%s (metadata_id);', {user_id}, {user_id}); END IF; END $$; """) ) # 🧩 3️⃣ Insert Data Spasial ke Partisi print(f"[INFO] Memasukkan data ke test_partition_user_{user_id} ...") insert_count = 0 for _, row in gdf.iterrows(): geom_wkt = row["geometry"].wkt if row["geometry"] is not None else None attributes = row.drop(labels=["geometry"]).to_dict() await conn.execute( text(""" INSERT INTO test_partition (user_id, metadata_id, geom, attributes, created_at) VALUES (:user_id, :metadata_id, ST_Force2D(ST_GeomFromText(:geom, 4326)), CAST(:attr AS jsonb), :created_at); """), { "user_id": user_id, "metadata_id": metadata_id, "geom": geom_wkt, "attr": json.dumps(attributes), "created_at": datetime.utcnow(), }, ) insert_count += 1 # 🧩 4️⃣ Membuat VIEW untuk dataset baru di QGIS await create_dataset_view_from_metadata(conn, metadata_id, user_id, dataset_title) print(f"[INFO] ✅ Berhasil memasukkan {insert_count} baris ke partisi user_id={user_id} (metadata_id={metadata_id}).") return { "status": "success", "user_id": user_id, "metadata_id": metadata_id, "dataset_title": dataset_title, "inserted_rows": insert_count, "geometry_type": list(gdf.geom_type.unique()), } except Exception as e: print(f"[ERROR] Gagal upload ke PostGIS partition: {e}") raise errorRes(status_code=500, message="Gagal upload ke PostGIS partition", details=str(e))