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Parameters.py
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Parameters.py
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# Copyright (c) 2019-2020, RTE (https://www.rte-france.com)
# See AUTHORS.txt
# This Source Code Form is subject to the terms of the Mozilla Public License, version 2.0.
# If a copy of the Mozilla Public License, version 2.0 was not distributed with this file,
# you can obtain one at http://mozilla.org/MPL/2.0/.
# SPDX-License-Identifier: MPL-2.0
# This file is part of Grid2Op, Grid2Op a testbed platform to model sequential decision making in power systems.
import os
import json
import warnings
from grid2op.dtypes import dt_int, dt_float, dt_bool
class Parameters:
"""
Main classes representing the _parameters of the game. The main paratemeters are describe bellow.
Note that changing the values of these _parameters might not be enough. If these _parameters are not used in the
:class:`grid2op.Rules.RulesChecker`, then modifying them will have no impact at all.
Attributes
----------
NO_OVERFLOW_DISCONNECTION: ``bool``
If set to ``True`` then the :class:`grid2op.Environment.Environment` will not disconnect powerline above their
thermal
limit. Default is ``False``
NB_TIMESTEP_OVERFLOW_ALLOWED: ``int``
Number of timesteps for which a soft overflow is allowed, default 2. This means that a powerline will be
disconnected (if :attr:`.NO_OVERFLOW_DISCONNECTION` is set to ``False``) after 2 time steps above its thermal
limit. This is called a "soft overflow".
NB_TIMESTEP_RECONNECTION: ``int``
Number of timesteps a powerline disconnected for security motives (for example due to
:attr:`.NB_TIMESTEP_POWERFLOW_ALLOWED` or :attr:`.HARD_OVERFLOW_THRESHOLD`) will remain disconnected.
It's set to 10 timestep by default.
NB_TIMESTEP_COOLDOWN_LINE: ``int``
When someone acts on a powerline by changing its status (connected / disconnected) this number indicates
how many timesteps the :class:`grid2op.Agent.BaseAgent` has to wait before being able to modify this status
again.
For examle, if this is 1, this means that an BaseAgent can act on status of a powerline 1 out of 2 time step (1
time step it acts, another one it cools down, and the next one it can act again). Having it at 0 it equivalent
to deactivate this feature (default).
NB_TIMESTEP_COOLDOWN_SUB: ``int``
When someone changes the topology of a substations, this number indicates how many timesteps the
:class:`grid2op.Agent.BaseAgent` has to wait before being able to modify the topology on this same substation. It
has the same behaviour as :attr:`Parameters.NB_TIMESTEP_LINE_STATUS_REMODIF`. To deactivate this feature,
put it at 0 (default).
HARD_OVERFLOW_THRESHOLD: ``float``
If a the powerflow on a line is above HARD_OVERFLOW_THRESHOLD * thermal limit (and
:attr:`Parameters.NO_OVERFLOW_DISCONNECTION` is set to ``False``) then it is automatically disconnected,
regardless of
the number of timesteps it is on overflow). This is called a "hard overflow"
ENV_DC: ``bool``
Whether or not making the simulations of the environment in the "direct current" approximation. This can be
usefull for early training of agent, as this mode is much faster to compute than the corresponding
"alternative current" powerflow. It is also less precise. The default is ``False``
FORECAST_DC: ``bool``
Whether to use the direct current approximation in the :func:`grid2op.Observation.BaseObservation.simulate`
method. Default is ``False``. Setting :attr:`FORECAST_DC` to `True` can speed up the computation of the
`simulate` function, but will make the results less accurate.
MAX_SUB_CHANGED: ``int``
Maximum number of substations that can be reconfigured between two consecutive timesteps by an
:class:`grid2op.Agent.BaseAgent`. Default value is 1.
MAX_LINE_STATUS_CHANGED: ``int``
Maximum number of powerlines statuses that can be changed between two consecutive timestetps by an
:class:`grid2op.Agent.BaseAgent`. Default value is 1.
IGNORE_MIN_UP_DOWN_TIME: ``bool``
Whether or not to ignore the attributes `gen_min_uptime` and `gen_min_downtime`. Basically setting this
parameter to ``True``
"""
def __init__(self, parameters_path=None):
"""
Build an object representing the _parameters of the game.
Parameters
----------
parameters_path: ``str``, optional
Path where to look for parameters.
"""
# if True, then it will not disconnect lines above their thermal limits
self.NO_OVERFLOW_DISCONNECTION = False
# number of timestep before powerline with an overflow is automatically disconnected
self.NB_TIMESTEP_OVERFLOW_ALLOWED = dt_int(2)
# number of timestep before a line can be reconnected if it has suffer a forced disconnection
self.NB_TIMESTEP_RECONNECTION = dt_int(10)
# number of timestep before a substation topology can be modified again
self.NB_TIMESTEP_COOLDOWN_LINE = dt_int(0)
self.NB_TIMESTEP_COOLDOWN_SUB = dt_int(0)
# threshold above which a powerline is instantly disconnected by protections
# this is expressed in relative value of the thermal limits
# for example setting "HARD_OVERFLOW_THRESHOLD = 2" is equivalent, if a powerline has a thermal limit of
# 243 A, to disconnect it instantly if it has a powerflow higher than 2 * 243 = 486 A
self.HARD_OVERFLOW_THRESHOLD = dt_int(2)
# are the powerflow performed by the environment in DC mode (dc powerflow) or AC (ac powerflow)
self.ENV_DC = False
# same as above, but for the forecast states
self.FORECAST_DC = False
# maximum number of substations that can be change in one action
self.MAX_SUB_CHANGED = dt_int(1)
# maximum number of powerline status that can be changed in one action
self.MAX_LINE_STATUS_CHANGED = dt_int(1)
# ignore the min_uptime and downtime for the generators: allow them to be connected / disconnected
# at will
self.IGNORE_MIN_UP_DOWN_TIME = True
# allow dispatch on turned off generator (if ``True`` you can actually dispatch a turned on geenrator)
self.ALLOW_DISPATCH_GEN_SWITCH_OFF = True
if parameters_path is not None:
if os.path.isfile(parameters_path):
self.init_from_json(parameters_path)
else:
warn_msg = "Parameters: the file {} is not found. Continuing with default parameters."
warnings.warn(warn_msg.format(parameters_path))
@staticmethod
def _isok_txt(arg):
if isinstance(arg, type(True)):
return arg
if isinstance(arg, type("")):
arg = arg.strip("\"")
elif isinstance(arg, type(1)):
arg = "{}".format(arg)
res = False
if arg == "True" or arg == "T" or arg == "true" or arg == "t" or str(arg) == "1":
res = True
elif arg == "False" or arg == "F" or arg == "false" or arg == "f" or str(arg) == "0":
res = False
else:
msg = "It's ambiguous where an argument is True or False. " \
"Please only provide \"True\" or \"False\" and not {}"
raise RuntimeError(msg.format(arg))
return res
def init_from_dict(self, dict_):
"""
Initialize the object given a dictionary. All keys are optional. If a key is not present in the dictionnary,
the default parameters is used.
Parameters
----------
dict_: ``dict``
The dictionary representing the parameters to load.
"""
if "NO_OVERFLOW_DISCONNECTION" in dict_:
self.NO_OVERFLOW_DISCONNECTION = Parameters._isok_txt(dict_["NO_OVERFLOW_DISCONNECTION"])
if "IGNORE_MIN_UP_DOWN_TIME" in dict_:
self.IGNORE_MIN_UP_DOWN_TIME = Parameters._isok_txt(dict_["IGNORE_MIN_UP_DOWN_TIME"])
if "ALLOW_DISPATCH_GEN_SWITCH_OFF" in dict_:
self.ALLOW_DISPATCH_GEN_SWITCH_OFF = Parameters._isok_txt(dict_["ALLOW_DISPATCH_GEN_SWITCH_OFF"])
if "NB_TIMESTEP_POWERFLOW_ALLOWED" in dict_:
self.NB_TIMESTEP_OVERFLOW_ALLOWED = dt_int(dict_["NB_TIMESTEP_POWERFLOW_ALLOWED"])
if "NB_TIMESTEP_OVERFLOW_ALLOWED" in dict_:
self.NB_TIMESTEP_OVERFLOW_ALLOWED = dt_int(dict_["NB_TIMESTEP_OVERFLOW_ALLOWED"])
if "NB_TIMESTEP_RECONNECTION" in dict_:
self.NB_TIMESTEP_RECONNECTION = dt_int(dict_["NB_TIMESTEP_RECONNECTION"])
if "HARD_OVERFLOW_THRESHOLD" in dict_:
self.HARD_OVERFLOW_THRESHOLD = dt_float(dict_["HARD_OVERFLOW_THRESHOLD"])
if "ENV_DC" in dict_:
self.ENV_DC = Parameters._isok_txt(dict_["ENV_DC"])
if "FORECAST_DC" in dict_:
self.FORECAST_DC = Parameters._isok_txt(dict_["FORECAST_DC"])
if "MAX_SUB_CHANGED" in dict_:
self.MAX_SUB_CHANGED = dt_int(dict_["MAX_SUB_CHANGED"])
if "MAX_LINE_STATUS_CHANGED" in dict_:
self.MAX_LINE_STATUS_CHANGED = dt_int(dict_["MAX_LINE_STATUS_CHANGED"])
if "NB_TIMESTEP_TOPOLOGY_REMODIF" in dict_:
# for backward compatibility (in case of old dataset)
self.NB_TIMESTEP_COOLDOWN_SUB = dt_int(dict_["NB_TIMESTEP_TOPOLOGY_REMODIF"])
if "NB_TIMESTEP_COOLDOWN_SUB" in dict_:
self.NB_TIMESTEP_COOLDOWN_SUB = dt_int(dict_["NB_TIMESTEP_COOLDOWN_SUB"])
if "NB_TIMESTEP_LINE_STATUS_REMODIF" in dict_:
# for backward compatibility (in case of old dataset)
self.NB_TIMESTEP_COOLDOWN_LINE = dt_int(dict_["NB_TIMESTEP_LINE_STATUS_REMODIF"])
if "NB_TIMESTEP_COOLDOWN_LINE" in dict_:
self.NB_TIMESTEP_COOLDOWN_LINE = dt_int(dict_["NB_TIMESTEP_COOLDOWN_LINE"])
authorized_keys = set(self.__dict__.keys())
authorized_keys = authorized_keys | {'NB_TIMESTEP_POWERFLOW_ALLOWED',
'NB_TIMESTEP_TOPOLOGY_REMODIF',
"NB_TIMESTEP_LINE_STATUS_REMODIF"}
ignored_keys = dict_.keys() - authorized_keys
if len(ignored_keys):
warnings.warn("Parameters: The _parameters \"{}\" used to build the Grid2Op.Parameters "
"class are not recognized and will be ignored.".format(ignored_keys))
def to_dict(self):
"""
Serialize all the _parameters as a dictionnary; Useful to write it in json format.
Returns
-------
res: ``dict``
A representation of these _parameters in the form of a dictionnary.
"""
res = {}
res["NO_OVERFLOW_DISCONNECTION"] = bool(self.NO_OVERFLOW_DISCONNECTION)
res["IGNORE_MIN_UP_DOWN_TIME"] = bool(self.IGNORE_MIN_UP_DOWN_TIME)
res["ALLOW_DISPATCH_GEN_SWITCH_OFF"] = bool(self.ALLOW_DISPATCH_GEN_SWITCH_OFF)
res["NB_TIMESTEP_OVERFLOW_ALLOWED"] = int(self.NB_TIMESTEP_OVERFLOW_ALLOWED)
res["NB_TIMESTEP_RECONNECTION"] = int(self.NB_TIMESTEP_RECONNECTION)
res["HARD_OVERFLOW_THRESHOLD"] = float(self.HARD_OVERFLOW_THRESHOLD)
res["ENV_DC"] = bool(self.ENV_DC)
res["FORECAST_DC"] = bool(self.FORECAST_DC)
res["MAX_SUB_CHANGED"] = int(self.MAX_SUB_CHANGED)
res["MAX_LINE_STATUS_CHANGED"] = int(self.MAX_LINE_STATUS_CHANGED)
res["NB_TIMESTEP_COOLDOWN_LINE"] = int(self.NB_TIMESTEP_COOLDOWN_LINE)
res["NB_TIMESTEP_COOLDOWN_SUB"] = int(self.NB_TIMESTEP_COOLDOWN_SUB)
return res
def init_from_json(self, json_path):
"""
Set member attributes from a json file
Parameters
----------
json_path: ``str``
The complete (*ie.* path + filename) where the json file is located.
"""
try:
with open(json_path) as f:
dict_ = json.load(f)
self.init_from_dict(dict_)
except:
warn_msg = "Could not load from {}\n" \
"Continuing with default parameters"
warnings.warn(warn_msg.format(json_path))
@staticmethod
def from_json(json_path):
"""
Create instance from a json path.
Parameters
----------
json_path: ``str``
The complete (*ie.* path + filename) where the json file is located.
Returns
-------
res: :class:`Parameters`
The _parameters initialized
"""
res = Parameters(json_path)
return res