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448 lines
15 KiB
Python
448 lines
15 KiB
Python
import functools
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import logging as lg
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import time
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from sqlite3 import OperationalError
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import numpy as np
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import pandas as pd
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from path import Path
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from translater import log, EnergySeries
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class ReportData(pd.DataFrame):
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"""This class serves as a subclass of a pandas DataFrame allowing to add
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additional functionnality"""
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ARCHETYPE = "Archetype"
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REPORTDATAINDEX = "ReportDataIndex"
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TIMEINDEX = "TimeIndex"
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REPORTDATADICTIONARYINDEX = "ReportDataDictionaryIndex"
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VALUE = "Value"
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ISMETER = "IsMeter"
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TYPE = "Type"
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INDEXGROUP = "IndexGroup"
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TIMESTEPTYPE = "TimestepType"
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KEYVALUE = "KeyValue"
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NAME = "Name"
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REPORTINGFREQUENCY = "ReportingFrequency"
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SCHEDULENAME = "ScheduleName"
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UNITS = "Units"
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@classmethod
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def from_sql_dict(cls, sql_dict):
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report_data = sql_dict["ReportData"]
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report_data["ReportDataDictionaryIndex"] = pd.to_numeric(
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report_data["ReportDataDictionaryIndex"]
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)
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report_data_dict = sql_dict["ReportDataDictionary"]
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return cls(
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report_data.reset_index().join(
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report_data_dict, on=["ReportDataDictionaryIndex"]
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)
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)
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@classmethod
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def from_sqlite(
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cls,
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sqlite_file,
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table_name="WaterSystems:EnergyTransfer",
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warmup_flag=0,
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environment_type=3,
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):
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"""Reads an EnergyPlus eplusout.sql file and returns a :class:`ReportData`
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which is a subclass of :class:`DataFrame`.
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Args:
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environment_type (str): An enumeration of the environment type. (1 = Design
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Day, 2 = Design Run Period, 3 = Weather Run Period) See the various
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SizingPeriod objects and the RunPeriod object for details.
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sqlite_file (str):
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Returns:
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(ReportData): The ReportData object.
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"""
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if not isinstance(sqlite_file, str):
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raise TypeError("Please provide a str, not a {}".format(type(sqlite_file)))
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file = Path(sqlite_file)
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if not file.exists():
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raise FileNotFoundError("Could not find sql file {}".format(file.relpath()))
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import sqlite3
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# create database connection with sqlite3
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with sqlite3.connect(sqlite_file) as conn:
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# empty dict to hold all DataFrames
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all_tables = {}
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# Iterate over all tables in the report_tables list
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sql_query = f"""
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SELECT rd.ReportDataIndex,
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rd.TimeIndex,
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rd.ReportDataDictionaryIndex,
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red.ReportExtendedDataIndex,
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t.Month,
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t.Day,
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t.Hour,
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t.Minute,
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t.Dst,
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t.Interval,
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t.IntervalType,
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t.SimulationDays,
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t.DayType,
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t.EnvironmentPeriodIndex,
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t.WarmupFlag,
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p.EnvironmentType,
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rd.Value,
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rdd.IsMeter,
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rdd.Type,
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rdd.IndexGroup,
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rdd.TimestepType,
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rdd.KeyValue,
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rdd.Name,
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rdd.ReportingFrequency,
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rdd.ScheduleName,
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rdd.Units
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FROM ReportData As rd
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INNER JOIN ReportDataDictionary As rdd ON rd.ReportDataDictionaryIndex = rdd.ReportDataDictionaryIndex
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LEFT OUTER JOIN ReportExtendedData As red ON rd.ReportDataIndex = red.ReportDataIndex
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INNER JOIN Time As t ON rd.TimeIndex = t.TimeIndex
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JOIN EnvironmentPeriods as p ON t.EnvironmentPeriodIndex = p.EnvironmentPeriodIndex
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WHERE (IFNULL(t.WarmupFlag, 0) = @warmup_flag);
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"""
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params = {"warmup_flag": warmup_flag}
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if table_name:
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conditions, table_name = cls.multiple_conditions(
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"table_name", table_name, "Name"
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)
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sql_query = sql_query.replace(";", """ AND (%s);""" % conditions)
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params.update(table_name)
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if environment_type:
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conditions, env_name = cls.multiple_conditions(
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"env_name", environment_type, "EnvironmentType"
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)
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sql_query = sql_query.replace(";", """ AND (%s);""" % conditions)
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params.update(env_name)
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df = cls.execute(conn, sql_query, params)
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return cls(df)
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@classmethod
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def multiple_conditions(cls, basename, cond_names, var_name):
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if not isinstance(cond_names, (list, tuple)):
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cond_names = [cond_names]
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cond_names = set(cond_names)
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cond_names = {
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"%s_%s" % (basename, i): name for i, name in enumerate(cond_names)
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}
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conditions = " OR ".join(
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["%s = @%s" % (var_name, cond_name) for cond_name in cond_names]
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)
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return conditions, cond_names
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@staticmethod
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def execute(conn, sql_query, params):
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try:
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# Try regular str read, could fail if wrong encoding
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conn.text_factory = str
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df = pd.read_sql_query(sql_query, conn, params=params, coerce_float=True)
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except OperationalError as e:
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# Wring encoding found, the load bytes and decode object
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# columns only
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raise e
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return df
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@property
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def _constructor(self):
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return ReportData
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@property
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def schedules(self):
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return self.sorted_values(key_value="Schedule Value")
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@property
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def df(self):
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"""Returns the DataFrame of the ReportData"""
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return pd.DataFrame(self)
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def heating_load(
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self, normalize=False, sort=False, ascending=False, concurrent_sort=False
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):
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"""Returns the aggragated 'Heating:Electricity', 'Heating:Gas' and
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'Heating:DistrictHeating' of each archetype
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Args:
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normalize (bool): if True, returns a normalize Series.
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Normalization is done with respect to each Archetype
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sort (bool): if True, sorts the values. Usefull when a load
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duration curve is needed.
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ascending (bool): if True, sorts value in ascending order. If a
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Load Duration Curve is needed, use ascending=False.
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Returns:
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EnergySeries: the Value series of the Heating Load with a Archetype,
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TimeIndex as MultiIndex.
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"""
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hl = self.filter_report_data(
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name=("Heating:Electricity", "Heating:Gas", "Heating:DistrictHeating")
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)
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freq = list(set(hl.ReportingFrequency))
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units = list(set(hl.Units))
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freq_map = dict(Hourly="H", Daily="D", Monthly="M")
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if len(units) > 1:
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raise MixedUnitsError()
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hl = hl.groupby(["Archetype", "TimeIndex"]).Value.sum()
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log("Returned Heating Load in units of {}".format(str(units)), lg.DEBUG)
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return EnergySeries(
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hl,
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frequency=freq_map[freq[0]],
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units=units[0],
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normalize=normalize,
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sort_values=sort,
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ascending=ascending,
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to_units="kWh",
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concurrent_sort=concurrent_sort,
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)
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def filter_report_data(
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self,
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archetype=None,
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reportdataindex=None,
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timeindex=None,
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reportdatadictionaryindex=None,
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value=None,
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ismeter=None,
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type=None,
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indexgroup=None,
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timesteptype=None,
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keyvalue=None,
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name=None,
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reportingfrequency=None,
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schedulename=None,
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units=None,
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inplace=False,
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):
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"""filter RaportData using specific keywords. Each keywords can be a
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tuple of strings (str1, str2, str3) which will return the logical_or
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on the specific column.
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Args:
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archetype (str or tuple):
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reportdataindex (str or tuple):
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timeindex (str or tuple):
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reportdatadictionaryindex (str or tuple):
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value (str or tuple):
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ismeter (str or tuple):
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type (str or tuple):
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indexgroup (str or tuple):
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timesteptype (str or tuple):
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keyvalue (str or tuple):
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name (str or tuple):
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reportingfrequency (str or tuple):
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schedulename (str or tuple):
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units (str or tuple):
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inplace (str or tuple):
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Returns:
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pandas.DataFrame
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"""
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start_time = time.time()
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c_n = []
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if archetype:
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c_1 = (
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conjunction(
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*[self[self.ARCHETYPE] == archetype for archetype in archetype],
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logical=np.logical_or,
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)
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if isinstance(archetype, tuple)
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else self[self.ARCHETYPE] == archetype
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)
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c_n.append(c_1)
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if reportdataindex:
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c_2 = (
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conjunction(
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*[
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self[self.REPORTDATAINDEX] == reportdataindex
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for reportdataindex in reportdataindex
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],
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logical=np.logical_or,
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)
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if isinstance(reportdataindex, tuple)
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else self[self.REPORTDATAINDEX] == reportdataindex
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)
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c_n.append(c_2)
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if timeindex:
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c_3 = (
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conjunction(
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*[self[self.TIMEINDEX] == timeindex for timeindex in timeindex],
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logical=np.logical_or,
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)
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if isinstance(timeindex, tuple)
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else self[self.TIMEINDEX] == timeindex
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)
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c_n.append(c_3)
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if reportdatadictionaryindex:
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c_4 = (
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conjunction(
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*[
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self[self.REPORTDATADICTIONARYINDEX]
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== reportdatadictionaryindex
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for reportdatadictionaryindex in reportdatadictionaryindex
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],
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logical=np.logical_or,
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)
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if isinstance(reportdatadictionaryindex, tuple)
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else self[self.REPORTDATADICTIONARYINDEX] == reportdatadictionaryindex
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)
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c_n.append(c_4)
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if value:
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c_5 = (
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conjunction(
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*[self[self.VALUE] == value for value in value],
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logical=np.logical_or,
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)
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if isinstance(value, tuple)
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else self[self.VALUE] == value
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)
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c_n.append(c_5)
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if ismeter:
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c_6 = (
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conjunction(
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*[self[self.ISMETER] == ismeter for ismeter in ismeter],
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logical=np.logical_or,
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)
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if isinstance(ismeter, tuple)
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else self[self.ISMETER] == ismeter
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)
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c_n.append(c_6)
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if type:
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c_7 = (
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conjunction(
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*[self[self.TYPE] == type for type in type], logical=np.logical_or
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)
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if isinstance(type, tuple)
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else self[self.TYPE] == type
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)
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c_n.append(c_7)
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if indexgroup:
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c_8 = (
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conjunction(
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*[self[self.INDEXGROUP] == indexgroup for indexgroup in indexgroup],
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logical=np.logical_or,
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)
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if isinstance(indexgroup, tuple)
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else self[self.INDEXGROUP] == indexgroup
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)
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c_n.append(c_8)
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if timesteptype:
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c_9 = (
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conjunction(
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*[
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self[self.TIMESTEPTYPE] == timesteptype
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for timesteptype in timesteptype
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],
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logical=np.logical_or,
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)
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if isinstance(timesteptype, tuple)
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else self[self.TIMESTEPTYPE] == timesteptype
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)
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c_n.append(c_9)
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if keyvalue:
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c_10 = (
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conjunction(
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*[self[self.KEYVALUE] == keyvalue for keyvalue in keyvalue],
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logical=np.logical_or,
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)
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if isinstance(keyvalue, tuple)
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else self[self.KEYVALUE] == keyvalue
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)
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c_n.append(c_10)
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if name:
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c_11 = (
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conjunction(
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*[self[self.NAME] == name for name in name], logical=np.logical_or
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)
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if isinstance(name, tuple)
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else self[self.NAME] == name
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)
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c_n.append(c_11)
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if reportingfrequency:
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c_12 = (
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conjunction(
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*[
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self[self.REPORTINGFREQUENCY] == reportingfrequency
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for reportingfrequency in reportingfrequency
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],
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logical=np.logical_or,
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)
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if isinstance(reportingfrequency, tuple)
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else self[self.REPORTINGFREQUENCY] == reportingfrequency
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)
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c_n.append(c_12)
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if schedulename:
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c_13 = (
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conjunction(
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*[
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self[self.SCHEDULENAME] == schedulename
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for schedulename in schedulename
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],
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logical=np.logical_or,
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)
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if isinstance(schedulename, tuple)
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else self[self.SCHEDULENAME] == schedulename
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)
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c_n.append(c_13)
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if units:
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c_14 = (
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conjunction(
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*[self[self.UNITS] == units for units in units],
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logical=np.logical_or,
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)
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if isinstance(units, tuple)
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else self[self.UNITS] == units
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)
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c_n.append(c_14)
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filtered_df = self.loc[conjunction(*c_n, logical=np.logical_and)]
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log("filtered ReportData in {:,.2f} seconds".format(time.time() - start_time))
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if inplace:
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return filtered_df._update_inplace(filtered_df)
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else:
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return filtered_df.__finalize__(self)
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def sorted_values(self, key_value=None, name=None, by="TimeIndex", ascending=True):
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"""Returns sorted values by filtering key_value and name
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Args:
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self: The ReporatData DataFrame
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key_value (str): key_value column filter
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name (str): name column filter
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by (str): sorting by this column name
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ascending (bool):
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Returns:
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ReportData
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"""
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if key_value and name:
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return (
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self.filter_report_data(name=name, keyvalue=key_value)
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.sort_values(by=by, ascending=ascending)
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.reset_index(drop=True)
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.rename_axis("TimeStep")
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.set_index(["Archetype"], append=True)
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.swaplevel(i=-2, j=-1, axis=0)
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)
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else:
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return self.sort_values(by=by, inplace=False)
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def conjunction(*conditions, logical=np.logical_and):
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"""Applies a logical function on n conditons"""
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return functools.reduce(logical, conditions)
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def or_conjunction(*conditions):
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return functools.reduce(np.logical_or, conditions)
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