"""Test functionalities of Geometric FBA.""" from typing import Callable, List import numpy as np import pandas as pd import pytest from cobra.core import Metabolite, Model, Reaction from cobra.flux_analysis import geometric_fba @pytest.fixture(scope="module") def geometric_fba_model() -> Model: """Generate geometric FBA model as described in [1]_ . References ---------- .. [1] Smallbone, Kieran & Simeonidis, Vangelis. (2009). Flux balance analysis: A geometric perspective. Journal of theoretical biology.258. 311-5. 10.1016/j.jtbi.2009.01.027. """ test_model = Model("geometric_fba_paper_model") test_model.add_metabolites(Metabolite("A")) test_model.add_metabolites(Metabolite("B")) v_1 = Reaction("v1", upper_bound=1.0) v_1.add_metabolites({test_model.metabolites.A: 1.0}) v_2 = Reaction("v2", lower_bound=-1000.0) v_2.add_metabolites({test_model.metabolites.A: -1.0, test_model.metabolites.B: 1.0}) v_3 = Reaction("v3", lower_bound=-1000.0) v_3.add_metabolites({test_model.metabolites.A: -1.0, test_model.metabolites.B: 1.0}) v_4 = Reaction("v4", lower_bound=-1000.0) v_4.add_metabolites({test_model.metabolites.A: -1.0, test_model.metabolites.B: 1.0}) v_5 = Reaction("v5") v_5.add_metabolites({test_model.metabolites.A: 0.0, test_model.metabolites.B: -1.0}) test_model.add_reactions([v_1, v_2, v_3, v_4, v_5]) test_model.objective = "v5" return test_model def test_geometric_fba_benchmark( model: Model, benchmark: Callable, all_solvers: List[str] ) -> None: """Benchmark geometric_fba.""" model.solver = all_solvers benchmark(geometric_fba, model, processes=1) def test_geometric_fba(geometric_fba_model: Model, all_solvers: List[str]) -> None: """Test geometric_fba.""" geometric_fba_model.solver = all_solvers geometric_fba_sol = geometric_fba(geometric_fba_model, processes=1) expected = pd.Series( {"v1": 1.0, "v2": 0.33, "v3": 0.33, "v4": 0.33, "v5": 1.0}, index=["v1", "v2", "v3", "v4", "v5"], ) assert np.allclose(geometric_fba_sol.fluxes, expected, atol=1e-02)