import numpy as np
import os
import pandas as pd
from tqdm import tqdm
from model_data.BaseUtility import BaseUtility


def list_subdirectories(directory_path):
    return [d for d in os.listdir(directory_path) if os.path.isdir(os.path.join(directory_path, d))]


DATA_DIRECTORY = os.getcwd() + '/model_data/simulation_system/data/all-domestic-certificates'

FIXED_FEATURES = [
    'PROPERTY_TYPE',
    'BUILT_FORM',
    'CONSTRUCTION_AGE_BAND',
    'NUMBER_HABITABLE_ROOMS',
    'CONSTITUENCY',
    'NUMBER_HEATED_ROOMS',
    'FIXED_LIGHTING_OUTLETS_COUNT',
    'GLAZED_AREA',
    'FLOOR_HEIGHT',
    'FLOOR_LEVEL',
    'TOTAL_FLOOR_AREA',
]

COMPONENT_FEATURES = [
    'TRANSACTION_TYPE',
    'WALLS_DESCRIPTION',
    'FLOOR_DESCRIPTION',
    'LIGHTING_DESCRIPTION',
    'ROOF_DESCRIPTION',
    'MAINHEAT_DESCRIPTION',
    'HOTWATER_DESCRIPTION',
    'MAIN_FUEL',
    'MECHANICAL_VENTILATION',
    'SECONDHEAT_DESCRIPTION',
    'ENERGY_TARIFF',  # Not sure if this is relevant
    'SOLAR_WATER_HEATING_FLAG',
    'PHOTO_SUPPLY',
    'WINDOWS_DESCRIPTION',
    'GLAZED_TYPE',
    'MULTI_GLAZE_PROPORTION',
    'LIGHTING_DESCRIPTION',
    'LOW_ENERGY_LIGHTING',
    'NUMBER_OPEN_FIREPLACES',
    'MAINHEATCONT_DESCRIPTION',
    'EXTENSION_COUNT'
]

# For these fields, we take an average if we have multiple values
AVERAGE_FIXED_FEATURES = [
    "TOTAL_FLOOR_AREA",
    "FLOOR_HEIGHT"
]

# For these fields, we take the latest value if we have multiple values
# Since more recent EPCs have been conducted with more rigour, we assume that the latest value is
# the most accurate
LATEST_FIELD = [
    "NUMBER_HABITABLE_ROOMS",
    "NUMBER_HEATED_ROOMS",
    "FIXED_LIGHTING_OUTLETS_COUNT",
    "CONSTRUCTION_AGE_BAND"
]

# If we see thee features changing, we don't use the EPC, since deem it not to be reliable
MANDATORY_FIXED_FEATURES = [
    "PROPERTY_TYPE",
]

# For particularly old EPC data, we have inconsistent records so we'll only include EPCS that were
# conducted after 2010, since SAP09 was introduced in 2009 an later SAP12 was introduced in England
# and Wales from 31 July 2014
EARLIEST_EPC_DATE = "2014-08-01"

RDSAP_RESPONSE = "CURRENT_ENERGY_EFFICIENCY"
HEAT_DEMAND_RESPONSE = "ENERGY_CONSUMPTION_CURRENT"


def make_cleaning_averages(df):
    cleaning_averages = df.groupby(
        ["PROPERTY_TYPE", "BUILT_FORM", "CONSTRUCTION_AGE_BAND", "NUMBER_HABITABLE_ROOMS", "NUMBER_HEATED_ROOMS"]
    )[AVERAGE_FIXED_FEATURES].mean().reset_index()

    return cleaning_averages


FLOOR_LEVEL_MAP = {
    "00": 0,
    "01": 1,
    "02": 2,
    "03": 3,
    "Basement": -1,
    "Ground": 0,
    "1st": 1,
    "2nd": 2,
    "3rd": 3,
}


def app():
    # Get all the files in the directory

    directories = list_subdirectories(DATA_DIRECTORY)

    for directory in tqdm(directories):
        filepath = os.path.join(DATA_DIRECTORY, directory, "certificates.csv")
        df = pd.read_csv(filepath, low_memory=False)
        df = df[~pd.isnull(df["UPRN"])]

        df = df[df["LODGEMENT_DATE"] >= EARLIEST_EPC_DATE]

        cleaning_averages = make_cleaning_averages(df)

        # We remove EPCS that were conducted for a new build, since these are performed with
        # full SAP, which produces different results to the RdSAP methodology
        df = df[df["TRANSACTION_TYPE"] != "new dwelling"]

        df["UPRN"] = df["UPRN"].astype(int).astype(str)
        counts = df.groupby("UPRN").size().reset_index()
        counts.columns = ["UPRN", "count"]
        counts = counts.sort_values("count", ascending=False)

        # take UPRNS with multiple EPCs
        counts = counts[counts["count"] > 1]
        df = df[df["UPRN"].isin(counts["UPRN"])]
        df = df.sort_values(["UPRN", "LODGEMENT_DATE"], ascending=True)

        results = []
        for uprn, property_data in df.groupby("UPRN", observed=True):

            # Fixed features - these are property attributes that shouldn't change over time

            ignore_epc = False
            fixed_data = {}
            for field in FIXED_FEATURES:
                vals = property_data[field].dropna().unique()
                # Remove invalid values
                vals = [v for v in vals if v not in BaseUtility.DATA_ANOMALY_MATCHES]

                if field == "FLOOR_LEVEL":
                    vals = list({FLOOR_LEVEL_MAP[v] for v in vals})

                if field in AVERAGE_FIXED_FEATURES:

                    if len(vals) > 1:
                        # Check the values are too far apart
                        if abs(vals[0] - vals[1]) / vals[0] > 0.1:
                            # Take the more recent value since it's likely to be more accurate
                            vals = [vals[-1]]

                    if vals:
                        field_value = np.mean(vals)
                    else:
                        # Clean using averages
                        avgs = cleaning_averages[
                            (cleaning_averages["PROPERTY_TYPE"] == property_data["PROPERTY_TYPE"].iloc[0]) &
                            (cleaning_averages["BUILT_FORM"] == property_data["BUILT_FORM"].iloc[0]) &
                            (cleaning_averages["CONSTRUCTION_AGE_BAND"] == property_data["CONSTRUCTION_AGE_BAND"].iloc[
                                0]) &
                            (cleaning_averages["NUMBER_HABITABLE_ROOMS"] ==
                             property_data["NUMBER_HABITABLE_ROOMS"].iloc[0]) &
                            (cleaning_averages["NUMBER_HEATED_ROOMS"] == property_data["NUMBER_HEATED_ROOMS"].iloc[0])
                            ]

                        field_value = avgs[field].iloc[0]

                elif field in LATEST_FIELD:
                    field_value = vals[-1] if vals else None
                else:
                    if len(vals) > 1:
                        if field in MANDATORY_FIXED_FEATURES:
                            ignore_epc = True
                        else:
                            raise ValueError("Fixed feature {} has more than one value - fix me".format(field))

                    field_value = vals[0] if vals else None

                fixed_data[field] = field_value

            if ignore_epc:
                continue

            # We include the lodgement date here as we probably need to factor time into the
            # model, since EPC standards and rigour have changed over time
            variable_data = property_data[
                COMPONENT_FEATURES + ["LODGEMENT_DATE", RDSAP_RESPONSE, HEAT_DEMAND_RESPONSE]
                ]

            # Note: we look at changes between subsequent EPCS, however we could look at other permutations
            # e.g. first vs second, second vs third and also first vs third
            property_model_data = []
            for idx in range(0, property_data.shape[0] - 1):

                if idx >= property_data.shape[0] - 1:
                    break

                starting_record = variable_data.iloc[idx]
                ending_record = variable_data.iloc[idx + 1]
                rdsap_change = ending_record[RDSAP_RESPONSE] - starting_record[RDSAP_RESPONSE]
                heat_demand_change = ending_record[HEAT_DEMAND_RESPONSE] - starting_record[HEAT_DEMAND_RESPONSE]

                if rdsap_change == 0:
                    # Assumption: We aren't interested in records that exhibit no change
                    continue

                # TODO: We need to pre-process the data. For instance, rather than using static for roofs, walls and
                #       floors, we may want to use the U-value. We may also want to handle the (assumed) tags
                #       within descriptions

                starting_record = starting_record[COMPONENT_FEATURES + ["LODGEMENT_DATE"]].add_suffix("_STARTING")
                ending_record = ending_record[COMPONENT_FEATURES + ["LODGEMENT_DATE"]].add_suffix("_ENDING")

                features = pd.concat([starting_record, ending_record])

                property_model_data.append(
                    {
                        "UPRN": uprn,
                        "RDSAP_CHANGE": rdsap_change,
                        "HEAT_DEMAND_CHANGE": heat_demand_change,
                        **features.to_dict()
                    }
                )

            results.extend(property_model_data)