# HydraulicStructures.py -- Pamhyr # Copyright (C) 2023 INRAE # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # -*- coding: utf-8 -*- import logging from tools import trace, timer, old_pamhyr_date_to_timestamp from Model.Tools.PamhyrDB import SQLSubModel from Model.Except import NotImplementedMethodeError from Model.HydraulicStructures.Basic.HydraulicStructures import BasicHS logger = logging.getLogger() class HydraulicStructure(SQLSubModel): _sub_classes = [ BasicHS, ] _id_cnt = 0 def __init__(self, id: int = -1, name: str = "", status=None): super(HydraulicStructure, self).__init__() self._status = status if id == -1: self.id = HydraulicStructure._id_cnt else: self.id = id self._name = name self._input_kp = None self._output_kp = None self._input_reach = None self._output_reach = None self._enable = True self._data = [] HydraulicStructure._id_cnt = max(HydraulicStructure._id_cnt + 1, self.id) @classmethod def _db_create(cls, execute): execute(""" CREATE TABLE hydraulic_structures( id INTEGER NOT NULL PRIMARY KEY, name TEXT NOT NULL, enable BOOLEAN NOT NULL, input_kp INTEGER, output_kp INTEGER, input_reach INTEGER, output_reach INTEGER, FOREIGN KEY(input_reach) REFERENCES river_reach(id), FOREIGN KEY(output_reach) REFERENCES river_reach(id) ) """) return cls._create_submodel(execute) @classmethod def _db_update(cls, execute, version): major, minor, release = version.strip().split(".") if major == minor == "0": if int(release) < 6: cls._db_create(execute) return True @classmethod def _db_load(cls, execute, data=None): new = [] table = execute( "SELECT id, name, enable, " + "input_kp, output_kp, " + "input_reach, output_reach " + "FROM hydraulic_structures " ) for row in table: it = iter(row) hs_id = next(it) name = next(it) enable = (next(it) == 1) input_kp = next(it) output_kp = next(it) input_reach_id = next(it) output_reach_id = next(it) hs = cls( id=hs_id, name=name, status=data['status'] ) hs.enable = enable hs.input_kp = input_kp hs.output_kp = output_kp hs.input_reach = None if input_reach_id != -1: hs.input_reach = next( filter( lambda n: n.id == input_reach_id, data["reachs"] ) ) hs.output_reach = None if output_reach_id != -1: hs.output_reach = next( filter( lambda n: n.id == output_reach_id, data["reachs"] ) ) data['hs_id'] = hs_id hs._data = BasicHS._db_load(execute, data) new.append(hs) return new def _db_save(self, execute, data=None): execute(f"DELETE FROM hydraulic_structures WHERE id = {self.id}") input_reach_id = -1 if self._input_reach is not None: reach_id = self._input_reach.id output_reach_id = -1 if self._output_reach is not None: reach_id = self._output_reach.id sql = ( "INSERT INTO " + "hydraulic_structures(" + " id, name, enable, input_kp, output_kp, " + " input_reach, output_reach" + ") " + "VALUES (" + f"{self.id}, '{self._db_format(self._name)}', " + f"{self._db_format(self.enable)}, " + f"{self.input_kp}, {self.input_kp}, " + f"{input_reach_id}, {output_reach_id}" + ")" ) execute(sql) data['hs_id'] = self.id for basic in self._data: basic._db_save(execute, data) return True def __len__(self): return len(self._data) @property def name(self): return self._name @name.setter def name(self, name): self._name = name self._status.modified() @property def input_kp(self): return self._input_kp @input_kp.setter def input_kp(self, input_kp): self._input_kp = input_kp self._status.modified() @property def output_kp(self): return self._output_kp @output_kp.setter def output_kp(self, output_kp): self._output_kp = output_kp self._status.modified() @property def enable(self): return self._enable @enable.setter def enable(self, enable): self._enable = enable self._status.modified() @property def input_reach(self): return self._input_reach @input_reach.setter def input_reach(self, input_reach): self._input_reach = input_reach self._status.modified() @property def output_reach(self): return self._output_reach @output_reach.setter def output_reach(self, output_reach): self._output_reach = output_reach self._status.modified() @property def basic_structures(self): return self._data.copy() def add(self, index: int): value = BasicHS() self._data.insert(index, value) self._status.modified() return value def insert(self, index: int, value: BasicHS): self._data.insert(index, value) self._status.modified() def delete_i(self, indexes): self._data = list( map( lambda e: e[1], filter( lambda e: e[0] not in indexes, enumerate(self.data) ) ) ) self._status.modified() def delete(self, els): self._data = list( filter( lambda e: e not in els, self.data ) ) self._status.modified() def sort(self, _reverse=False, key=None): if key is None: self._data.sort(reverse=_reverse) else: self._data.sort(reverse=_reverse, key=key) self._status.modified()