Пример #1
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def test_ufun_penalty_scales_are_correct(penalties_scale):
    from scml.oneshot.ufun import OneShotUFun

    world = SCML2020OneShotWorld(
        **SCML2020OneShotWorld.generate(
            MyIndNeg,
            n_agents_per_process=3,
            n_processes=2,
            n_steps=30,
            penalties_scale=penalties_scale,
        ),
        compact=True,
        no_logs=True,
    )
    for _ in range(30):
        old_trading = world.trading_prices.copy()
        world.step()
        for _, a in world.agents.items():
            if is_system_agent(a.id):
                continue
            u: OneShotUFun = a.ufun
            if penalties_scale == "trading":
                assert (u.output_penalty_scale
                        # == a.awi.trading_prices[a.awi.my_output_product]
                        == old_trading[a.awi.my_output_product])
                assert (u.input_penalty_scale
                        # == a.awi.trading_prices[a.awi.my_input_product]
                        == old_trading[a.awi.my_input_product])
            else:
                assert (u.output_penalty_scale == a.awi.catalog_prices[
                    a.awi.my_output_product])
                assert (u.input_penalty_scale == a.awi.catalog_prices[
                    a.awi.my_input_product])
Пример #2
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def test_sync_counter_all_reenters_as_expected(
    use_sleep, check_negs, single_thread, raise_expected
):
    from scml.oneshot import SCML2020OneShotWorld

    types = {
        (False, False): NotSleepingNotChecking,
        (False, True): NotSleepingChecking,
        (True, False): SleepingNotChecking,
        (True, True): SleepingChecking,
    }

    n_steps = 5

    world = SCML2020OneShotWorld(
        **SCML2020OneShotWorld.generate(
            [types[(use_sleep, check_negs)], RandomOneShotAgent],
            n_agents_per_process=2,
            n_processes=2,
            n_steps=n_steps,
        ),
        compact=True,
        no_logs=True,
    )
    force_single_thread(single_thread)
    with (raises if raise_expected else does_not_raise)(RuntimeError):
        world.run()
    force_single_thread(False)
Пример #3
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def test_graphs_lead_to_no_unknown_nodes():
    world = SCML2020OneShotWorld(
        **SCML2020OneShotWorld.generate(agent_types=[RandomOneShotAgent],
                                        n_steps=10),
        construct_graphs=True,
    )
    world.graph((0, world.n_steps))
Пример #4
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def test_production_cost_increase():
    from scml.oneshot.agents import GreedyOneShotAgent
    from scml.oneshot.world import SCML2020OneShotWorld

    NPROCESSES = 5
    costs = [[] for _ in range(NPROCESSES)]
    for _ in range(100):
        world = SCML2020OneShotWorld(
            **SCML2020OneShotWorld.generate(
                GreedyOneShotAgent,
                n_agents_per_process=10,
                n_processes=NPROCESSES,
            ),
            compact=True,
            no_logs=True,
        )
        for aid in world.agent_profiles.keys():
            if is_system_agent(aid):
                continue
            profile = world.agent_profiles[aid]
            costs[profile.input_product].append(profile.cost)
    mean_costs = [sum(_) / len(_) for _ in costs]
    assert all([
        b > (0.5 * (i + 2) / (i + 1)) * a
        for i, (a, b) in enumerate(zip(mean_costs[:-1], mean_costs[1:]))
    ]), f"non-ascending costs {mean_costs}"
Пример #5
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def test_basic_awi_info_suppliers_consumers():
    world = SCML2020OneShotWorld(
        **SCML2020OneShotWorld.generate(
            agent_types=RandomOneShotAgent,
            n_steps=10,
            n_processes=2,
            compact=True,
            no_logs=True,
        )
    )
    for aid in world.agents:
        if is_system_agent(aid):
            continue
        a = world.agents[aid]
        assert a.id in a.awi.all_suppliers[a.awi.my_output_product]
        assert a.id in a.awi.all_consumers[a.awi.my_input_product]
        assert a.awi.my_consumers == world.agent_consumers[aid]
        assert a.awi.my_suppliers == world.agent_suppliers[aid]
        l = a.awi.my_input_product
        assert all(
            _.endswith(str(l - 1)) or a.awi.is_system(_) for _ in a.awi.my_suppliers
        )
        assert all(
            _.endswith(str(l + 1)) or a.awi.is_system(_) for _ in a.awi.my_consumers
        )
Пример #6
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def test_adapter(atype):
    world = SCML2020OneShotWorld(
        **SCML2020OneShotWorld.generate(agent_types=atype, n_steps=10),
        construct_graphs=False,
        compact=True,
        no_logs=True,
    )
    world.run()
Пример #7
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def test_generate():
    world = SCML2020OneShotWorld(**SCML2020OneShotWorld.generate(
        agent_types=RandomOneShotAgent,
        n_steps=10,
        n_processes=2,
        compact=True,
        no_logs=True,
    ))
    world.run()
    assert True
Пример #8
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def test_ufun_min_max():
    world = SCML2020OneShotWorld(
        **SCML2020OneShotWorld.generate(agent_types=[RandomOneShotAgent], n_steps=10),
        construct_graphs=True,
    )
    world.step()
    for aid, agent in world.agents.items():
        if is_system_agent(aid):
            continue
        ufun = agent.make_ufun()
        mn, mx = ufun.min_utility, ufun.max_utility
        assert mx > mn or mx == mn == 0
Пример #9
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def test_underfullfilment_is_irrational():
    agent_types = [RandomOneShotAgent, MyExogAgent] * 2
    for _ in range(10):
        world = SCML2020OneShotWorld(
            **SCML2020OneShotWorld.generate(
                agent_types,
                n_steps=100,
                n_processes=2,
                n_agents_per_process=2,
                random_agent_types=False,
            ),
        )
        with single_thread():
            world.run()
Пример #10
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def test_adapter_example():
    atype = [
        scml.scml2020.agents.random.RandomAgent,
        scml.oneshot.agents.nothing.OneshotDoNothingAgent,
        scml.scml2020.agents.do_nothing.DoNothingAgent,
        scml.scml2020.agents.indneg.IndependentNegotiationsAgent,
        scml.scml2020.agents.decentralizing.DecentralizingAgent,
        scml.scml2020.agents.decentralizing.DecentralizingAgentWithLogging,
    ]
    world = SCML2020OneShotWorld(
        **SCML2020OneShotWorld.generate(agent_types=atype, n_steps=10),
        construct_graphs=False,
    )
    world.run()
Пример #11
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def test_sync_agent_receives_first_proposals_before_counter_all(
        agent_types, n_agents_per_process, n_processes):
    n_steps = 50
    world = SCML2020OneShotWorld(**SCML2020OneShotWorld.generate(
        [MySyncAgent] + agent_types,
        n_processes=n_processes,
        n_steps=n_steps,
        n_lines=10,
        n_agents_per_process=n_agents_per_process,
        no_logs=True,
        compact=True,
        ignore_agent_exceptions=False,
        ignore_negotiation_exceptions=False,
        ignore_contract_execution_exceptions=False,
        ignore_simulation_exceptions=False,
    ))
    world.run()
    assert world.current_step >= n_steps - 1
Пример #12
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def test_ufun_min_max_in_world():
    for _ in range(20):
        world = SCML2020OneShotWorld(
            **SCML2020OneShotWorld.generate(agent_types=[RandomOneShotAgent],
                                            n_steps=10),
            construct_graphs=False,
            compact=True,
            no_logs=True,
        )
        world.step()
        for aid, agent in world.agents.items():
            if is_system_agent(aid):
                continue
            ufun = agent.make_ufun(add_exogenous=True)
            ufun.find_limit(True)
            ufun.find_limit(False)
            mn, mx = ufun.min_utility, ufun.max_utility
            assert mx >= mn
Пример #13
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def generate_world(
    agent_types,
    n_processes=3,
    n_steps=10,
    n_agents_per_process=2,
    n_lines=10,
    **kwargs,
):
    kwargs["no_logs"] = True
    kwargs["compact"] = True
    world = SCML2020OneShotWorld(
        **SCML2020OneShotWorld.generate(
            agent_types,
            n_processes=n_processes,
            n_steps=n_steps,
            n_lines=n_lines,
            n_agents_per_process=n_agents_per_process,
            **kwargs,
        )
    )
    for s1, s2 in zip(world.suppliers[:-1], world.suppliers[1:]):
        assert len(set(s1).intersection(set(s2))) == 0
    for s1, s2 in zip(world.consumers[:-1], world.consumers[1:]):
        assert len(set(s1).intersection(set(s2))) == 0
    for p in range(n_processes):
        assert len(world.suppliers[p + 1]) == n_agents_per_process
        assert len(world.consumers[p]) == n_agents_per_process
    for a in world.agents.keys():
        if is_system_agent(a):
            continue
        assert len(world.agent_inputs[a]) == 1
        assert len(world.agent_outputs[a]) == 1
        assert len(world.agent_processes[a]) == 1
        assert len(world.agent_suppliers[a]) == (
            n_agents_per_process if world.agent_inputs[a][0] != 0 else 1
        )
        assert len(world.agent_consumers[a]) == (
            n_agents_per_process if world.agent_outputs[a][0] != n_processes else 1
        )
    return world
Пример #14
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def test_trading_prices_updated(n_agents, n_processes, n_steps):
    from scml.oneshot import SCML2020OneShotWorld
    from negmas.helpers import force_single_thread

    eps = 1e-3

    world = SCML2020OneShotWorld(
        **SCML2020OneShotWorld.generate(
            [MyRandomAgent] * n_processes,
            n_agents_per_process=n_agents,
            n_processes=n_processes,
            n_steps=n_steps,
        ),
        compact=True,
        no_logs=True,
    )
    catalog_prices = world.catalog_prices
    diffs = np.zeros_like(catalog_prices)

    # we start at catlaog prices
    for aid, agent in world.agents.items():
        assert np.abs(agent.awi.trading_prices - catalog_prices).max() < eps

    force_single_thread(True)
    for _ in range(n_steps):
        world.step()
        trading_prices = None
        for aid, agent in world.agents.items():
            if is_system_agent(aid):
                continue
            trading_prices = agent.awi.trading_prices.copy()
            break
        diffs = np.maximum(diffs, np.abs(trading_prices - catalog_prices))

    assert diffs.max() > eps
    force_single_thread(False)