mirror of https://gitlab.com/pamhyr/pamhyr2
417 lines
11 KiB
Python
417 lines
11 KiB
Python
# Reservoir.py -- Pamhyr
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# Copyright (C) 2023-2024 INRAE
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#
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# This program is free software: you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation, either version 3 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program. If not, see <https://www.gnu.org/licenses/>.
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# -*- coding: utf-8 -*-
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import logging
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from Model.Tools.PamhyrDB import SQLSubModel
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from Model.Scenario import Scenario
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logger = logging.getLogger()
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class Data(SQLSubModel):
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_sub_classes = []
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def __init__(self, id: int = -1, status=None):
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super(Data, self).__init__(id)
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self._status = status
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self._data = []
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@classmethod
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def _db_create(cls, execute, ext=""):
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execute(f"""
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CREATE TABLE reservoir_data{ext}(
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{cls.create_db_add_pamhyr_id()},
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ind INTEGER NOT NULL,
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elevation REAL NOT NULL,
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surface REAL NOT NULL,
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reservoir INTEGER,
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{Scenario.create_db_add_scenario()},
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{Scenario.create_db_add_scenario_fk()},
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FOREIGN KEY(reservoir) REFERENCES reservoir(pamhyr_id),
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PRIMARY KEY(pamhyr_id, scenario)
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)
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""")
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return cls._create_submodel(execute)
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@classmethod
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def _db_update(cls, execute, version, data=None):
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major, minor, release = version.strip().split(".")
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if major == minor == "0":
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cls._db_update_to_0_1_0(execute, data)
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return cls._update_submodel(execute, version, data)
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@classmethod
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def _db_update_to_0_1_0(cls, execute, data):
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table = "reservoir_data"
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reservoirs = data['id2pid']['reservoir']
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cls.update_db_add_pamhyr_id(
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execute, table,
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data=data
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)
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Scenario.update_db_add_scenario(execute, table)
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cls._db_create(execute, ext="_tmp")
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execute(
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f"INSERT INTO {table} " +
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"(pamhyr_id, ind, elevation, surface, reservoir, scenario) " +
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"SELECT pamhyr_id, ind, elevation, surface, reservoir, scenario " +
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f"FROM {table}"
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)
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execute(f"DROP TABLE {table}")
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execute(f"ALTER TABLE {table}_tmp RENAME TO {table}")
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cls._db_update_to_0_1_0_set_reservoir_pid(execute, table, reservoirs)
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@classmethod
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def _db_update_to_0_1_0_set_reservoir_pid(cls, execute, table, reservoirs):
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bcs = execute(
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f"SELECT pamhyr_id, reservoir FROM {table}"
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)
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for row in bcs:
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it = iter(row)
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pid = next(it)
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reservoir_id = next(it)
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execute(
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f"UPDATE {table} " +
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f"SET reservoir = {reservoirs[reservoir_id]} " +
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f"WHERE pamhyr_id = {pid}"
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)
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@classmethod
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def _db_load(cls, execute, data=None):
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new = []
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reseroire = data["reservoir"]
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values = execute(
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"SELECT pamhyr_id, ind, elevation, surface " +
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"FROM reservoir_data " +
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f"WHERE reservoir = {reseroire.pamhyr_id} " +
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"ORDER BY ind ASC"
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)
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for v in values:
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it = iter(v)
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pid = next(it)
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ind = next(it)
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elevation = next(it)
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surface = next(it)
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nd = cls(
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id=pid, status=data['status']
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)
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nd._data = [elevation, surface]
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new.append(nd)
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return new
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def _db_save(self, execute, data=None):
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pid = self._pamhyr_id
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ind = data["ind"]
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elevation = self._db_format(str(self[0]))
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surface = self._db_format(str(self[1]))
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bc = data["bc"]
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execute(
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"INSERT INTO " +
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"reservoir_data " +
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"(pamhyr_id, ind, elevation, surface, reservoir) " +
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"VALUES (" +
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f"{pid}, {ind}, '{elevation}', {surface}, " +
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f"{reservoir._pamhyr_id}" +
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")"
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)
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def __getitem__(self, key):
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return self._data[key]
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def __setitem__(self, key, value):
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self._data[key] = float(value)
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class Reservoir(SQLSubModel):
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_sub_classes = [Data]
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def __init__(self, id: int = -1,
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name: str = "",
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status=None):
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super(Reservoir, self).__init__(id)
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self._status = status
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self._name = name
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self._node = None
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self._data = []
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@classmethod
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def _db_create(cls, execute, ext=""):
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execute(f"""
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CREATE TABLE reservoir{ext} (
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{cls.create_db_add_pamhyr_id()},
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name TEXT NOT NULL,
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node INTEGER,
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{Scenario.create_db_add_scenario()},
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{Scenario.create_db_add_scenario_fk()},
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FOREIGN KEY(node) REFERENCES river_node(pamhyr_id),
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PRIMARY KEY(pamhyr_id, scenario)
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)
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""")
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return cls._create_submodel(execute)
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@classmethod
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def _db_update(cls, execute, version, data=None):
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major, minor, release = version.strip().split(".")
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if major == minor == "0":
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if int(release) < 5:
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cls._db_create(execute)
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cls._db_update_to_0_1_0(execute, data)
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return cls._update_submodel(execute, version, data)
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@classmethod
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def _db_update_to_0_1_0(cls, execute, data):
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table = "reservoir"
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nodes = data['id2pid']['river_node']
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cls.update_db_add_pamhyr_id(
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execute, table,
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data=data
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)
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Scenario.update_db_add_scenario(execute, table)
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cls._db_create(execute, ext="_tmp")
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execute(
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f"INSERT INTO {table} " +
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"(pamhyr_id, name, node, scenario) " +
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"SELECT pamhyr_id, name, node, scenario " +
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f"FROM {table}"
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)
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execute(f"DROP TABLE {table}")
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execute(f"ALTER TABLE {table}_tmp RENAME TO {table}")
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cls._db_update_to_0_1_0_set_node_pid(execute, table, nodes)
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@classmethod
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def _db_load(cls, execute, data=None):
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new = []
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table = execute(
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"SELECT pamhyr_id, name, node " +
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"FROM reservoir "
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)
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for row in table:
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it = iter(row)
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id = next(it)
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name = next(it)
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node_id = next(it)
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new_reservoir = cls(id, name, status=data["status"])
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new_reservoir._node = None
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if node_id != -1:
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new_reservoir._node = next(
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filter(
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lambda n: n.id == node_id, data["nodes"]
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)
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)
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data["reservoir"] = new_reservoir
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new_reservoir._data = Data._db_load(
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execute, data=data
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)
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new.append(new_reservoir)
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return new
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def _db_save(self, execute, data=None):
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execute(
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"DELETE FROM reservoir " +
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f"WHERE pamhyr_id = {self.pamhyr_id}"
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)
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execute(
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"DELETE FROM reservoir_data " +
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f"WHERE reservoir = {self.pamhyr_id}"
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)
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node_id = 'NULL'
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if self._node is not None:
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node_id = self._node.pamhyr_id
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sql = (
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"INSERT INTO " +
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"reservoir(pamhyr_id, name, node) " +
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"VALUES (" +
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f"{self.pamhyr_id}, '{self._db_format(self._name)}', " +
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f"{node_id}" +
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")"
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)
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execute(sql)
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ind = 0
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for d in self._data:
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data["ind"] = ind
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d._db_save(execute, data)
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ind += 1
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return True
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def __len__(self):
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return len(self._data)
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@property
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def name(self):
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if self._name == "":
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return f"Reservoir #{self.pamhyr_id}"
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return self._name
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@name.setter
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def name(self, name):
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self._name = name
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self._status.modified()
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@property
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def node(self):
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return self._node
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@node.setter
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def node(self, node):
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self._node = node
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self._status.modified()
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def has_node(self):
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return self._node is not None
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@property
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def data(self):
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return self._data.copy()
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@property
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def _default_elevation(self):
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return 0.0
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@property
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def _default_surface(self):
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return 0.0
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def is_define(self):
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return len(self._data) != 0
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def new_from_data(self, data):
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try:
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new_0 = float(data[0])
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new_1 = float(data[1])
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except Exception as e:
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logger.error(e)
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new_0 = None
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new_1 = None
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return (new_0, new_1)
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def add(self, index: int):
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value = (self._default_elevation, self._default_surface)
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self._data.insert(index, value)
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self._status.modified()
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return value
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def insert(self, index: int, value):
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self._data.insert(index, value)
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self._status.modified()
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def delete_i(self, indexes):
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self._data = list(
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map(
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lambda e: e[1],
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filter(
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lambda e: e[0] not in indexes,
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enumerate(self.data)
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)
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)
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)
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self._status.modified()
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def delete(self, els):
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self._data = list(
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filter(
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lambda e: e not in els,
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self.data
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)
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)
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self._status.modified()
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def sort(self, _reverse=False, key=None):
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if key is None:
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self._data.sort(reverse=_reverse)
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else:
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self._data.sort(reverse=_reverse, key=key)
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self._status.modified()
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def get_i(self, index):
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return self.data[index]
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def get_range(self, _range):
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lst = []
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for r in _range:
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lst.append(r)
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return lst
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def _set_i_c_v(self, index, column, value):
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v = list(self._data[index])
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v[column] = value
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self._data[index] = tuple(v)
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self._status.modified()
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def set_i_elevation(self, index: int, value):
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self._set_i_c_v(index, 0, value)
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def set_i_surface(self, index: int, value):
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self._set_i_c_v(index, 1, value)
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def move_up(self, index):
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if index < len(self):
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next = index - 1
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d = self._data
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d[index], d[next] = d[next], d[index]
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self._status.modified()
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def move_down(self, index):
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if index >= 0:
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prev = index + 1
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d = self._data
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d[index], d[prev] = d[prev], d[index]
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self._status.modified()
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