Model/recommendations/WallRecommendations.py

import math
from typing import List

import pandas as pd

from datatypes.enums import QuantityUnits
from backend.Property import Property
from BaseUtility import Definitions
from recommendations.recommendation_utils import (
    r_value_per_mm_to_u_value, calculate_u_value_uplift, is_diminishing_returns, update_lowest_selected_u_value,
    get_recommended_part, get_wall_u_value
)
from recommendations.config import PARTIALLY_FILLED_PERCENTAGE_ASSUMPTION
from recommendations.Costs import Costs
from utils.logger import setup_logger

logger = setup_logger()


class WallRecommendations(Definitions):
    YEAR_WALLS_BUILT_WITH_INSULATION = 1990
    # After 1930, Solid brick walls became less populate and instead, cavity walls became a
    # more popular choice
    YEARS_CAVITY_WALLS_BEGAN = 1930
    U_VALUE_UNIT = 'w/m-¦k'

    # part L building regulations indicate that any rennovations on an existing property's walls should
    # achieve a U-value of no higher than 0.3
    # This can be seen in table 4.3 in building regulations part L:
    # https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/1133079
    # /Approved_Document_L__Conservation_of_fuel_and_power__Volume_1_Dwellings__2021_edition_incorporating_2023_amendments.pdf
    BUILDING_REGULATIONS_PART_L_MAX_U_VALUE = 0.3
    # We don't recommend measures that are too low because it becomes expensive, therefore we aim to avoid
    # diminishing returns. This value should be verified with Osmosis (TODO)
    DIMINISHING_RETURNS_U_VALUE = 0.25

    # Building regulations part L also indicates that cavity wall insulation should result in 0.55 u-value
    BUILDING_REGULATIONS_PART_L_CAVITY_WALL_MAX_U_VALUE = 0.55

    # Part L regulations indicate that any new build should have walls that achieve a u-value of no higher
    # than 0.18.
    BUILDING_REGULATIONS_PART_L_NEW_BUILD_MAX_U_VALUE = 0.18
    # 0.15 is an often cited diminishing returns value for new builds
    NEW_BUILD_DIMINISHING_RETURNS_U_VALUE = 0.15

    # Add some error so that if, for example, a new part we recommend provides a u-value of 0.19,
    # we still consider it as an option
    U_VALUE_ERROR = 0.01

    def __init__(
        self,
        property_instance: Property,
        materials: List
    ):
        self.property = property_instance
        self.costs = Costs(self.property)
        # For audit purposes, when estimating u values we'll store it
        self.estimated_u_value = None

        # Will contains a list of recommended measures
        self.recommendations = []

        self.cavity_wall_insulation_materials = [
            part for part in materials if part["type"] == "cavity_wall_insulation"
        ]

        self.internal_wall_insulation_materials = [
            part for part in materials if part["type"] == "internal_wall_insulation"
        ]

        self.internal_wall_non_insulation_materials = [
            part for part in materials if part["type"] in [
                "iwi_wall_demolition", "iwi_vapour_barrier", "iwi_redecoration"
            ]
        ]

        self.external_wall_insulation_materials = [
            part for part in materials if part["type"] == "external_wall_insulation"
        ]

        self.external_wall_non_insulation_materials = [
            part for part in materials if part["type"] in [
                "ewi_wall_demolition", "ewi_wall_preparation", "ewi_wall_redecoration"
            ]
        ]

    @property
    def ewi_valid(self):
        """
        This method check available data, to determine if a property is suitable for external wall insulation
        """

        # Current logic: If the property is in a conservation area/heritage building/listed building or a flat,
        # it is not suitable for EWI
        if self.property.restricted_measures or (self.property.data["property-type"].lower() == "flat"):
            return False

        return True

    def recommend(self, phase=0):
        # if building built after 1990 + we're able to identify U-value +
        # U-value less than 0.18 and if in or close to a conversation area,
        # recommend internal wall insulation as a possible measure

        u_value = self.property.walls["thermal_transmittance"]
        is_cavity_wall = self.property.walls["is_cavity_wall"]
        insulation_thickness = self.property.walls["insulation_thickness"]

        # We check if the wall is already insulated and if so, we exit
        if (insulation_thickness in ["average", "above average"]) or self.property.walls["is_filled_cavity"]:
            return

        if u_value:

            if self.property.walls["thermal_transmittance_unit"] != self.U_VALUE_UNIT:
                raise NotImplementedError("Haven't handled the case of other u value units yet")
            # We can't detect it's a cavity wall, but it was built after 1990 so likely built with insulation already
            # + it already has a U-value WORSE than the building regulations, so we recommend either internal or
            # external wall insulation
            if (not is_cavity_wall) and (self.property.year_built >= self.YEAR_WALLS_BUILT_WITH_INSULATION) and (
                u_value >= self.BUILDING_REGULATIONS_PART_L_MAX_U_VALUE
            ):
                # Recommend insulation
                self.find_insulation(u_value, phase)
                return

            # We can't detect it's a cavity wall, but it was built after 1990 so likely built with insulation already
            # + it already has a U-value better than the building regulations, so we don't need to recommend anything
            if (not is_cavity_wall) and (self.property.year_built >= self.YEAR_WALLS_BUILT_WITH_INSULATION) and (
                u_value <= self.BUILDING_REGULATIONS_PART_L_MAX_U_VALUE
            ):
                # Recommend nothing
                return

            raise NotImplementedError("Not implemented yet")

        u_value = get_wall_u_value(
            clean_description=self.property.walls["clean_description"],
            age_band=self.property.age_band,
            is_granite_or_whinstone=self.property.walls["is_granite_or_whinstone"],
            is_sandstone_or_limestone=self.property.walls["is_sandstone_or_limestone"],
        )

        self.estimated_u_value = u_value

        if is_cavity_wall:
            if u_value >= self.BUILDING_REGULATIONS_PART_L_MAX_U_VALUE:
                # Test filling cavity
                self.find_cavity_insulation(u_value, insulation_thickness, phase)

            return

        # Remaining wall types are treated with IWI or EWI
        if u_value >= self.BUILDING_REGULATIONS_PART_L_MAX_U_VALUE:
            self.find_insulation(u_value, phase)
            return

        # If the u-value is within regulations, we don't do anything
        return

    def find_cavity_insulation(self, u_value, insulation_thickness, phase):
        """
        This method tests different materials to fill the cavity wall, determining which
        material will give us the best U-value.

        We check for diminishing returns, however this function does not check for meeting building
        Part L regulations right now. This is because Part L is less stringent for cavity walls

        Width of a cavity:
        There are various sources online that suggest the width of a cavity wall is around 50mm. The retrofit course
        indicates that most cavities are 50-75mm. Many sources online indicate that 50mm is the standard MINIMUM figure
        therefore we'll use 75mm as the base assumption

        This document:
        https://www.buildingcentre.co.uk/media/_file/pdf/22220_pdf27.pdf
        Indicates that they could be 50-85mm wide

        :param u_value: u_value of the starting wall
        :param insulation_thickness: describes the insulation level of the wall. If "below average", we have a partially
        filled cavity wall
        """

        insulation_materials = pd.DataFrame(self.cavity_wall_insulation_materials)
        cavity_width = 75
        if insulation_thickness == "below average":
            cavity_width = cavity_width * (1 - PARTIALLY_FILLED_PERCENTAGE_ASSUMPTION)

        # Test the different fill options
        lowest_selected_u_value = None
        recommendations = []
        for _, material in insulation_materials.iterrows():

            part_u_value = r_value_per_mm_to_u_value(cavity_width, material["r_value_per_mm"])

            _, new_u_value = calculate_u_value_uplift(u_value, part_u_value)
            new_u_value = math.ceil(new_u_value * 100.0) / 100.0

            if is_diminishing_returns(
                recommendations, new_u_value, lowest_selected_u_value, self.DIMINISHING_RETURNS_U_VALUE
            ):
                continue

            if new_u_value <= self.BUILDING_REGULATIONS_PART_L_CAVITY_WALL_MAX_U_VALUE:
                lowest_selected_u_value = update_lowest_selected_u_value(lowest_selected_u_value, new_u_value)

                cost_result = self.costs.cavity_wall_insulation(
                    wall_area=self.property.insulation_wall_area,
                    material=material.to_dict(),
                )

                recommendations.append(
                    {
                        "phase": phase,
                        "parts": [
                            get_recommended_part(
                                part=material.to_dict(),
                                quantity=self.property.insulation_wall_area,
                                quantity_unit=QuantityUnits.m2.value,
                                cost_result=cost_result
                            )
                        ],
                        "type": "cavity_wall_insulation",
                        "description": self._make_description(material),
                        "starting_u_value": u_value,
                        "new_u_value": new_u_value,
                        "sap_points": None,
                        **cost_result
                    }
                )

        self.recommendations = recommendations

    def _find_insulation(self, u_value, insulation_materials, non_insulation_materials, phase):

        lowest_selected_u_value = None
        recommendations = []
        for _, insulation_material_group in insulation_materials.groupby("description"):

            for _, material in insulation_material_group.iterrows():

                part_u_value = r_value_per_mm_to_u_value(material["depth"], material["r_value_per_mm"])
                _, new_u_value = calculate_u_value_uplift(u_value, part_u_value)
                new_u_value = math.ceil(new_u_value * 100.0) / 100.0

                # If I have a lowest U value and my new u value is higher than that but lower than the
                # diminishing returns threshold, it can be considered

                # If I have a lowest U value and my new u value is lower than the lowest value, it's
                # further into the diminishing returns threshold and can shouldn't be

                if is_diminishing_returns(
                    recommendations, new_u_value, lowest_selected_u_value, self.DIMINISHING_RETURNS_U_VALUE
                ):
                    continue

                # We allow a small tolerance for error so we don't discount the recommendation entirely
                if new_u_value <= self.BUILDING_REGULATIONS_PART_L_MAX_U_VALUE:

                    lowest_selected_u_value = update_lowest_selected_u_value(lowest_selected_u_value, new_u_value)

                    if material["type"] == "internal_wall_insulation":
                        cost_result = self.costs.internal_wall_insulation(
                            wall_area=self.property.insulation_wall_area,
                            material=material.to_dict(),
                            non_insulation_materials=non_insulation_materials
                        )
                    elif material["type"] == "external_wall_insulation":
                        cost_result = self.costs.external_wall_insulation(
                            wall_area=self.property.insulation_wall_area,
                            material=material.to_dict(),
                            non_insulation_materials=non_insulation_materials
                        )
                    else:
                        raise ValueError("Invalid material type")

                    recommendations.append(
                        {
                            "phase": phase,
                            "parts": [
                                get_recommended_part(
                                    part=material.to_dict(),
                                    quantity=self.property.insulation_wall_area,
                                    quantity_unit=QuantityUnits.m2.value,
                                    cost_result=cost_result
                                )
                            ],
                            "type": material["type"],
                            "description": self._make_description(material),
                            "starting_u_value": u_value,
                            "new_u_value": new_u_value,
                            "sap_points": None,
                            **cost_result
                        }
                    )

        return recommendations

    def find_insulation(self, u_value, phase):
        """
        This function contains the logic for finding potential insulation measures for a property, depending
        on the parts available and whether the property can have external wall insulation installed
        :return:
        """

        # Recommend external and internal wall insulation separately
        # Since external and internal wall insulation are sufficiently different,
        # we separate the logic for for recommending them, therefore we don't
        # consider diminishing returns between the two as they are considered to be separate measures

        ewi_recommendations = []
        if self.ewi_valid:
            ewi_recommendations = self._find_insulation(
                u_value=u_value,
                insulation_materials=pd.DataFrame(self.external_wall_insulation_materials),
                non_insulation_materials=self.external_wall_non_insulation_materials,
                phase=phase
            )

        iwi_recommendations = self._find_insulation(
            u_value=u_value,
            insulation_materials=pd.DataFrame(self.internal_wall_insulation_materials),
            non_insulation_materials=self.internal_wall_non_insulation_materials,
            phase=phase
        )

        self.recommendations += ewi_recommendations + iwi_recommendations

    @staticmethod
    def _make_description(material):
        if material["type"] == "internal_wall_insulation":
            return (f"Install {int(material['depth'])}{material['depth_unit']} {material['description']} on internal "
                    f"walls")

        if material["type"] == "external_wall_insulation":
            return (f"Install {int(material['depth'])}{material['depth_unit']} {material['description']} on external "
                    f"walls")

        if material["type"] == "cavity_wall_insulation":
            return f"Fill cavity with {material['description']}"

        raise ValueError("Invalid material type")

    @staticmethod
    def rvalue_per_mm(total_r_value: float, thickness_mm: float) -> float:
        """Return R-value per mm.

        Parameters
        ----------
        total_r_value : float
            Total R-value (in m2K/W).
        thickness_mm : float
            Thickness of the material in mm.

        Returns
        -------
        float
            R-value per mm.
        """
        return total_r_value / thickness_mm

    @staticmethod
    def thermal_conductivity_to_r_value_per_mm(thermal_conductivity: float) -> float:
        """Convert thermal conductivity to R-value per mm.

        Parameters
        ----------
        thermal_conductivity : float
            Thermal conductivity (in W/mK).

        Returns
        -------
        float
            R-value per mm.
        """
        # Calculate R-value in m²K/W for 1 meter of the material
        r_value_per_meter = 1 / thermal_conductivity

        # Convert R-value to R-value per mm
        r_value_per_mm = r_value_per_meter / 1000

        return r_value_per_mm