Model/recommendations/tests/test_costs.py

from recommendations.Costs import Costs
from unittest.mock import Mock
import pytest


class TestCosts:

    def test_cavity_wall_insulation(self):
        mock_property = Mock()
        mock_property.data = {
            "county": "Northamptonshire"
        }

        costs = Costs(mock_property)

        cwi_material = {
            "description": "cwi",
            "depth": 75,
            "thermal_conductivity": 0.037,
            "total_cost": 14,
            "labour_hours_per_unit": 0.065,
            "is_installer_quote": True
        }

        cwi_results = costs.cavity_wall_insulation(
            wall_area=95.9104281347967,
            material=cwi_material,
        )

        assert cwi_results["total"] == 1342.7459938871539
        assert cwi_results["contingency"] == 134.2745993887154

    def test_loft_insulation(self):
        mock_property = Mock()
        mock_property.data = {
            "county": "Northamptonshire"
        }

        costs = Costs(mock_property)
        loft_material = {
            "type": "loft_insulation",
            "description": "Crown Loft Roll 44 glass fibre roll",
            "depth": 270,
            "thermal_conductivity": 0.044,
            "total_cost": 11,
            "labour_hours_per_unit": 0.11,
            "is_installer_quote": True,
        }

        loft_results = costs.loft_and_flat_insulation(
            floor_area=33.5,
            material=loft_material,
        )

        assert loft_results["total"] == 368.5
        assert loft_results["contingency"] == 36.85

    def test_internal_wall_insulation(self):
        mock_property = Mock()
        mock_property.data = {
            "county": "Northamptonshire"
        }

        costs = Costs(mock_property)

        iwi_material = {
            "type": "internal_wall_insulation",
            "description": "Ecotherm Eco-Versal PIR Insulation Board",
            "depth": 150,
            "depth_unit": "mm",
            "cost_unit": "gbp_per_m2",
            "thermal_conductivity": 0.022,
            "thermal_conductivity_unit": "watt_per_meter_kelvin",
            "labour_hours_per_unit": 0.18,
            "total_cost": 200,
            "link": "link",
            "is_installer_quote": True
        }

        iwi_results = costs.solid_wall_insulation(
            wall_area=95.9104281347967,
            material=iwi_material,
        )

        assert iwi_results["total"] == 19182.085626959342
        assert iwi_results["contingency"] == 4987.342263009429

    def test_suspended_floor_insulation(self):
        mock_property = Mock()
        mock_property.data = {
            "county": "Northamptonshire"
        }

        costs = Costs(mock_property)

        sus_floor_material = {
            'type': 'suspended_floor_insulation', 'description': 'Thermafleece CosyWool Roll',
            'depth': 140.0,
            'depth_unit': 'mm', 'cost_unit': 'gbp_per_m2', 'thermal_conductivity': 0.039,
            'thermal_conductivity_unit': 'watt_per_meter_kelvin', 'prime_material_cost': 0,
            'material_cost': 11.68, 'labour_cost': 1.78, 'labour_hours_per_unit': 0.1,
            'plant_cost': 0,
            'total_cost': 75,
            "is_installer_quote": False
        }

        sus_floor_results = costs.suspended_floor_insulation(
            insulation_floor_area=33.5,
            material=sus_floor_material,
        )

        assert sus_floor_results["total"] == 2512.5
        assert sus_floor_results["contingency"] == 502.5

    @pytest.mark.parametrize("insulation_floor_area, expected_result", [
        (5, 3),
        (33.5, 5.446976345666071),
        (45, 7),
        (70, 10.190623048464415),
        (90, 12.617506476551622),
        (150, 19.47802744828744),
        (200, 24.873843619763473),
    ])
    def test_estimate_estimate_number_of_days_for_solid_floor(
        self, insulation_floor_area, expected_result
    ):
        mock_property = Mock()
        mock_property.data = {
            "county": "Northamptonshire"
        }

        costs = Costs(mock_property)
        assert costs._estimate_number_of_days_for_solid_floor(insulation_floor_area) == expected_result

    def test_solid_floor_insulation(self):
        mock_property = Mock()
        mock_property.data = {
            "county": "Northamptonshire"
        }

        costs = Costs(mock_property)
        sol_floor_material = {
            'type': 'solid_floor_insulation', 'description': 'Kay-Cel Expanded Polystyrene Board',
            'depth': 100.0, 'depth_unit': 'mm', 'cost_unit': 'gbp_per_m2', 'thermal_conductivity': 0.033,
            'thermal_conductivity_unit': 'watt_per_meter_kelvin', 'prime_material_cost': 0,
            'material_cost': 12.02, 'labour_cost': 4.4, 'labour_hours_per_unit': 0.19, 'plant_cost': 0,
            'total_cost': 16.42, 'link': 'SPONs', 'Notes': 0, "is_installer_quote": False
        }

        sol_floor_results = costs.solid_floor_insulation(
            insulation_floor_area=33.5,
            material=sol_floor_material,
        )

        assert sol_floor_results["total"] == 2184
        assert sol_floor_results["contingency"] == 567.84

    def test_external_wall_insulation(self):
        mock_property = Mock()
        mock_property.data = {
            "county": "Northamptonshire",
            "property-type": "House",
            "built-form": 'End-Terrace'
        }

        costs = Costs(mock_property)

        ewi_material = {
            'type': 'external_wall_insulation', 'description': 'Ecotherm Eco-Versal PIR Insulation Board',
            'depth': 150.0, 'depth_unit': 'mm', 'cost_unit': 'gbp_per_m2', 'thermal_conductivity': 0.022,
            'thermal_conductivity_unit': 'watt_per_meter_kelvin',
            'labour_hours_per_unit': 1.4,
            'total_cost': 300, 'link': 'SPONs', 'Notes': 0, "is_installer_quote": True
        }

        ewi_results = costs.solid_wall_insulation(
            wall_area=95.9104281347967,
            material=ewi_material,
        )

        assert ewi_results["total"] == 28773.12844043901
        assert ewi_results["contingency"] == 7481.013394514142

    def test_flat_roof_insulation(self):
        mock_property = Mock()
        mock_property.data = {
            "county": "Northamptonshire"
        }

        costs = Costs(mock_property)
        flat_roof_material = {
            'id': 1225, 'type': 'flat_roof_insulation',
            'description': 'Kingspan Thermaroof TR21 zero OPD '
                           'urethene insulation board',
            'depth': 100.0, 'depth_unit': 'mm', 'cost': None,
            'cost_unit': 'gbp_per_m2', 'r_value_per_mm': 0.04,
            'r_value_unit': 'square_meter_kelvin_per_watt',
            'thermal_conductivity': 0.025,
            'thermal_conductivity_unit': 'watt_per_meter_kelvin',
            'link': 'SPONs',
            'created_at': "now", 'is_active': True,
            'prime_material_cost': None, 'material_cost': 50.95,
            'labour_cost': 10.66, 'labour_hours_per_unit': 0.48,
            'plant_cost': 0.0, 'total_cost': 61.61,
            'notes': "SPONs didn't have a labour hours so we use "
                     "0.48 which is similar to other materials",
            "is_installer_quote": False
        }

        flat_roof_floor_results = costs.loft_and_flat_insulation(
            floor_area=33.5,
            material=flat_roof_material,
        )

        assert flat_roof_floor_results["total"] == 2063.935
        assert flat_roof_floor_results["contingency"] == 536.6231

        assert costs.labour_adjustment_factor == 0.88

    # Test for different wattages
    @pytest.mark.parametrize("solar_product, expected_cost", [
        ({"total_cost": 5000, "includes_scaffolding": False}, 6000),
        ({"total_cost": 5000, "includes_scaffolding": True}, 5000),
    ])
    def test_solar_pv_different_wattages(self, solar_product, expected_cost):
        mock_property = Mock()
        mock_property.data = {"county": "Mansfield"}
        scaffolding_options = [
            {"size": 2, "total_cost": 1000}
        ]
        costs = Costs(mock_property)
        result = costs.solar_pv(
            solar_product=solar_product,
            scaffolding_options=scaffolding_options,
            n_floors=2
        )

        assert result['total'] == pytest.approx(expected_cost, rel=0.01)

    def test_sloping_ceiling_insulation(self):
        mock_property = Mock()
        mock_property.data = {"county": "Mansfield"}
        costs = Costs(mock_property)
        res = costs.sloping_ceiling_insulation(insulation_roof_area=64.085)
        assert res["total"] == 5238.713924924947
        assert res["contingency"] == 1362.0656204804861