コード例 #1
0
def test_agent_pop_stable_setting(tmpdir):
    """
    Agent population count stable across time
    """
    param_file = os.path.join(
        os.path.dirname(os.path.abspath(__file__)), "params", "integration_base.yml"
    )

    for item in os.listdir(
        os.path.join(
            os.path.dirname(os.path.abspath(__file__)), "..", "titan", "settings"
        )
    ):
        if "__" not in item and item != "base":
            path = tmpdir.mkdir(item)
            os.mkdir(os.path.join(path, "network"))
            print(f"-----------Starting run for {item}-----------")
            params = create_params(item, param_file, tmpdir)
            model = TITAN(params)

            orig_pop = model.pop.all_agents.num_members()
            assert orig_pop == params.model.num_pop

            model.run(path)

            assert model.pop.all_agents.num_members() == orig_pop
コード例 #2
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def test_prep_coverage(make_model_integration, tmpdir):
    """
    If we increase the target of prep coverage, does the incidence of hiv decrease?
    """
    path_a = tmpdir.mkdir("a")
    path_a.mkdir("network")
    path_b = tmpdir.mkdir("b")
    path_b.mkdir("network")

    model_a = make_model_integration()
    model_a.run(path_a)

    # change the coverage upward for creating model b, use same seeds
    model_a.params.prep.cap = 0.9
    model_a.params.prep.init = 0.9
    model_a.params.model.seed.run = model_a.run_seed
    model_a.params.model.seed.ppl = model_a.pop.pop_seed

    model_b = TITAN(model_a.params)
    model_b.run(path_b)
    print(
        f"model b prep world cap: {model_b.pop.geography.locations['world'].params.prep.cap}"
    )

    result_file_a = os.path.join(path_a, "basicReport.txt")
    result_file_b = os.path.join(path_b, "basicReport.txt")
    assert os.path.isfile(result_file_a)
    with open(result_file_a, newline="") as fa, open(result_file_b, newline="") as fb:
        reader_a = csv.DictReader(fa, delimiter="\t")
        res_a = {}
        for row in reader_a:
            if row["t"] not in res_a:
                res_a[row["t"]] = {"hiv": 0, "prep": 0}
            res_a[row["t"]]["hiv"] += float(row["hiv"])
            res_a[row["t"]]["prep"] += float(row["hiv"])

        reader_b = csv.DictReader(fb, delimiter="\t")
        res_b = {}
        for row in reader_b:
            if row["t"] not in res_b:
                res_b[row["t"]] = {"hiv": 0, "prep": 0}
            res_b[row["t"]]["hiv"] += float(row["hiv"])
            res_b[row["t"]]["prep"] += float(row["prep"])

    # at start, should be similar
    t0_hiv_a = res_a["0"]["hiv"]
    t0_hiv_b = res_b["0"]["hiv"]
    t0_diff = t0_hiv_a - t0_hiv_b
    assert math.isclose(t0_hiv_a, t0_hiv_b, abs_tol=15)  # within 15 agents
    assert res_a["0"]["prep"] < res_b["0"]["prep"]

    # at end, should be different
    t10_hiv_a = res_a["10"]["hiv"]
    t10_hiv_b = res_b["10"]["hiv"]
    t10_diff = t10_hiv_a - t10_hiv_b  # a should be higher
    assert res_a["10"]["prep"] < res_b["10"]["prep"]
    assert t10_hiv_a > t0_hiv_a
    assert t10_diff > t0_diff
コード例 #3
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def test_target_partners(make_model_integration, tmpdir):
    """
    If we increase the number of target partners, does the number of actual partners increase?
    """
    model_a = make_model_integration()
    model_a.params.outputs.network.edge_list = True

    path_a = tmpdir.mkdir("a")
    path_a.mkdir("network")
    path_b = tmpdir.mkdir("b")
    path_b.mkdir("network")

    # run with default bins (0-9)
    run_id_a = model_a.id
    model_a.run(path_a)

    # change the partner distribution mean upward for creating model b
    for bond in model_a.params.classes.bond_types:
        model_a.params.demographics.black.sex_type.MSM.drug_type["None"].num_partners[
            bond
        ].vars[1].value *= 10
        model_a.params.demographics.black.sex_type.MSM.drug_type["Inj"].num_partners[
            bond
        ].vars[1].value *= 10
    model_a.params.model.seed.run = model_a.run_seed
    model_a.params.model.seed.ppl = model_a.pop.pop_seed

    model_b = TITAN(model_a.params)
    run_id_b = model_b.id

    model_b.run(path_b)

    g_a_0 = nx.read_edgelist(
        os.path.join(path_a, "network", f"{run_id_a}_Edgelist_t0.txt"),
        delimiter="|",
        data=False,
    )
    g_a_10 = nx.read_edgelist(
        os.path.join(path_a, "network", f"{run_id_a}_Edgelist_t10.txt"),
        delimiter="|",
        data=False,
    )
    g_b_0 = nx.read_edgelist(
        os.path.join(path_b, "network", f"{run_id_b}_Edgelist_t0.txt"),
        delimiter="|",
        data=False,
    )
    g_b_10 = nx.read_edgelist(
        os.path.join(path_b, "network", f"{run_id_b}_Edgelist_t10.txt"),
        delimiter="|",
        data=False,
    )

    # should be at least 2x bigger
    assert (g_a_0.number_of_edges() * 1.5) < g_b_0.number_of_edges()
    assert (g_a_10.number_of_edges() * 1.5) < g_b_10.number_of_edges()
コード例 #4
0
ファイル: run_titan.py プロジェクト: tdbrothers/TITAN
def single_run(sweep, outfile_dir, params, save_pop, pop_path):
    """
    A single run of titan.  Dispatched from main using parallel processes.
    """
    pid = str(os.getpid())
    pid_outfile_dir = os.path.join(outfile_dir, pid)
    save_pop_dir = (os.path.join(pid_outfile_dir, "pop")
                    if save_pop is not None else None)
    if not os.path.isdir(pid_outfile_dir):
        os.mkdir(pid_outfile_dir)
        os.mkdir(os.path.join(pid_outfile_dir, "network"))
        if save_pop:
            os.mkdir(save_pop_dir)
        else:
            save_pop_dir = None

    # apply params from sweep for this run
    for param, val in sweep.items():
        utils.override_param(params, param, val, delimiter=".")

    tic = time_mod.time()

    # runs simulations
    if pop_path is None:
        pop = Population(params)
    else:
        pop = pop_io.read(params, pop_path)

    if save_pop_dir is not None:
        pop_io.write(pop, save_pop_dir)
        print(f"Population saved to: {save_pop_dir}")

    try:
        model = TITAN(params, pop=pop)
    except Exception as e:
        raise Exception(f"Model creation failed: {e}")

    try:
        model.run(pid_outfile_dir)
    except Exception as e:
        raise Exception(f"Model run failed for run {model.id}: {e}")

    update_sweep_file(model.id, model.pop.id, sweep, pid_outfile_dir)

    return time_mod.time() - tic
コード例 #5
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ファイル: conftest.py プロジェクト: tdbrothers/TITAN
 def _make_model(p=params):
     return TITAN(p)
コード例 #6
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import os
import sys

param_file = "viz_basic.yml"
setting = "scott"
outdir = "results"

try:
    os.mkdir(outdir)
except:
    print("results directory already exists, exiting")
    exit()

params = create_params(setting, param_file, outdir)

model = TITAN(params)


def run(self, outdir: str):
    """
        Runs the model for the number of time steps defined in params, at each time step does:

        1. Increments time
        2. Takes one step
        3. Resets trackers
        4. Saves population for visualization

        args:
            outdir: path to directory where results should be saved
        """
    # make sure initial state of things get printed
コード例 #7
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def test_incar(params_integration, tmpdir):
    # turn on incar - initi is set to 0, so for these purposes, just run time
    params_integration.features.incar = True
    model = TITAN(params_integration)

    tmpdir.mkdir("network")

    # make sure we're starting from a clean slate
    init_incar = sum([1 for agent in model.pop.all_agents if agent.incar.active])
    assert init_incar == 0

    model.time = 1
    model.step(tmpdir)
    model.reset_trackers()

    time_1_incars = [agent for agent in model.pop.all_agents if agent.incar.active]
    time_1_incar_hiv_neg = [agent for agent in time_1_incars if not agent.hiv.active]
    should_release_t2 = [
        agent for agent in time_1_incars if agent.incar.release_time == 2
    ]

    assert len(time_1_incars) > 0
    assert len(time_1_incar_hiv_neg) > 0
    assert len(should_release_t2) > 0

    for agent in time_1_incars:
        assert agent.incar.time == 1
        assert agent.incar.release_time > 1

    model.time += 1
    model.step(tmpdir)
    model.reset_trackers()

    for agent in should_release_t2:
        assert not agent.incar.active

    # agents should not hiv convert during incar
    for agent in time_1_incar_hiv_neg:
        assert not agent.hiv.active
コード例 #8
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def test_syringe_services(params_integration, tmpdir):
    """
    If we use syringe services, does the incidence of hiv decrease?
    """
    params_integration.demographics.black.sex_type.MSM.drug_type.Inj.ppl = 1.0
    params_integration.demographics.black.sex_type.MSM.drug_type["None"].ppl = 0.0
    params_integration.model.num_pop = 500
    model_a = TITAN(params_integration)
    model_a.params.partnership.sex.frequency.Sex = (
        ObjMap(  # turn off sex to show only injection effects
            {"type": "bins", "bins": {1: {"prob": 1.0, "min": 0, "max": 1}}}
        )
    )
    path_a = tmpdir.mkdir("a")
    path_a.mkdir("network")
    path_b = tmpdir.mkdir("b")
    path_b.mkdir("network")

    # run with default bins (0-9)
    model_a.run(path_a)
    num_bonds = 0
    num_ag = 0
    for ag in model_a.pop.all_agents:
        if ag.hiv.active:
            num_ag += 1
            for ptnr in ag.get_partners(["Inj", "SexInj"]):
                if not ptnr.hiv.active:
                    num_bonds += 1
    assert num_bonds  # make sure there are serodiscordant partnerships

    # change the coverage upward for creating model b, use same seeds
    model_a.params.features.syringe_services = True
    model_a.params.model.seed.run = model_a.run_seed
    model_a.params.model.seed.ppl = model_a.pop.pop_seed

    model_b = TITAN(model_a.params)

    model_b.run(path_b)

    result_file_a = os.path.join(path_a, "basicReport.txt")
    result_file_b = os.path.join(path_b, "basicReport.txt")
    assert os.path.isfile(result_file_a)
    with open(result_file_a, newline="") as fa, open(result_file_b, newline="") as fb:
        reader_a = csv.DictReader(fa, delimiter="\t")
        res_a = {}
        for row in reader_a:
            if row["drug_type"] == "Inj":
                res_a[row["t"]] = res_a.get(row["t"], 0) + float(row["hiv"])

        reader_b = csv.DictReader(fb, delimiter="\t")
        res_b = {}
        for row in reader_b:
            if row["drug_type"] == "Inj":
                res_b[row["t"]] = res_b.get(row["t"], 0) + float(row["hiv"])

    # at start, should be similar
    t0_hiv_a = res_a["0"]
    t0_hiv_b = res_b["0"]
    t0_diff = t0_hiv_a - t0_hiv_b
    assert math.isclose(t0_hiv_a, t0_hiv_b, abs_tol=15)  # within 15 agents

    # at end, should be different
    t10_hiv_a = res_a["10"]
    t10_hiv_b = res_b["10"]
    t10_diff = t10_hiv_a - t10_hiv_b  # a should be higher
    assert t10_hiv_a > t0_hiv_a
    assert t10_hiv_b > t0_hiv_b
    assert t10_diff > t0_diff
コード例 #9
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 def _make_model_integration():
     return TITAN(params_integration)