Exemplo n.º 1
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def test_shelve_save(mesh, casedir):
    mtf = MockTupleField(dict(save=True, save_as="shelve"))
    msf = MockScalarField(dict(save=True, save_as="shelve"))

    pp = PostProcessor(dict(casedir=casedir))
    pp.add_fields([mtf, msf])

    pp.update_all({}, 0.0, 0)
    pp.update_all({}, 0.1, 1)
    pp.update_all({}, 0.2, 2)
    pp.finalize_all()

    for mf in [mtf, msf]:
        assert os.path.isdir(pp.get_savedir(mf.name))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), "metadata.db"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), mf.name + ".db"))

        md = shelve.open(os.path.join(pp.get_savedir(mf.name), "metadata.db"),
                         'r')
        assert 'shelve' in md["0"]
        assert md['saveformats'] == ['shelve']
        md.close()

        # Read back
        data = shelve.open(
            os.path.join(pp.get_savedir(mf.name), mf.name + ".db"), 'r')
        for i in ["0", "1", "2"]:
            d = data[i]
        data.close()

        assert d == pp.get(mf.name)
Exemplo n.º 2
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def test_pyplot():
    pp = PostProcessor()

    pp.add_field(MockScalarField(dict(plot=True)))
    pp.update_all({}, 0.0, 0)
    pp.update_all({}, 0.1, 1)
    pp.update_all({}, 0.6, 2)
    pp.update_all({}, 1.6, 3)
Exemplo n.º 3
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def test_default_save(mesh, casedir):
    spacepool = SpacePool(mesh)
    Q = spacepool.get_space(1, 0)
    V = spacepool.get_space(1, 1)

    mff = MockFunctionField(Q, dict(save=True))
    mvff = MockVectorFunctionField(V, dict(save=True))
    mtf = MockTupleField(dict(save=True))
    msf = MockScalarField(dict(save=True))

    pp = PostProcessor(dict(casedir=casedir))
    pp.add_fields([mff, mvff, mtf, msf])

    pp.update_all({}, 0.0, 0)
    pp.update_all({}, 0.1, 1)
    pp.update_all({}, 0.2, 2)
    pp.finalize_all()

    for mf in [mff, mvff]:
        assert os.path.isdir(pp.get_savedir(mf.name))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), "metadata.db"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), mf.name + ".hdf5"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), mf.name + ".h5"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), mf.name + ".xdmf"))

        assert len(os.listdir(pp.get_savedir(mf.name))) == 4

        md = shelve.open(os.path.join(pp.get_savedir(mf.name), "metadata.db"),
                         'r')
        assert 'hdf5' in md["0"]
        assert 'hdf5' in md['saveformats']
        assert 'xdmf' in md["0"]
        assert 'xdmf' in md['saveformats']
        assert set(md['saveformats']) == set(['hdf5', 'xdmf'])
        md.close()

    for mf in [mtf, msf]:
        assert os.path.isdir(pp.get_savedir(mf.name))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), "metadata.db"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), mf.name + ".db"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), mf.name + ".txt"))

        md = shelve.open(os.path.join(pp.get_savedir(mf.name), "metadata.db"),
                         'r')
        assert 'txt' in md["0"]
        assert 'txt' in md['saveformats']
        assert 'shelve' in md["0"]
        assert 'shelve' in md['saveformats']
        assert set(md['saveformats']) == set(['txt', 'shelve'])
        md.close()
Exemplo n.º 4
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def test_get_casedir(casedir):
    pp = PostProcessor(dict(casedir=casedir))

    assert os.path.isdir(pp.get_casedir())
    assert os.path.samefile(pp.get_casedir(), casedir)

    pp.update_all({}, 0.0, 0)

    assert len(os.listdir(pp.get_casedir())) == 1
    pp.clean_casedir()
    assert len(os.listdir(pp.get_casedir())) == 0
Exemplo n.º 5
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def test_dolfinplot(mesh):
    pp = PostProcessor()
    spacepool = SpacePool(mesh)
    Q = spacepool.get_space(1, 0)
    V = spacepool.get_space(1, 1)

    pp.add_field(MockFunctionField(Q, dict(plot=True)))
    pp.add_field(MockVectorFunctionField(V, dict(plot=True)))
    pp.update_all({}, 0.0, 0)
    pp.update_all({}, 0.1, 1)
    pp.update_all({}, 0.6, 2)
    pp.update_all({}, 1.6, 3)
Exemplo n.º 6
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def test_xmlgz_save(mesh, casedir):
    spacepool = SpacePool(mesh)
    Q = spacepool.get_space(1, 0)
    V = spacepool.get_space(1, 1)

    mff = MockFunctionField(Q, dict(save=True, save_as="xml.gz"))
    mvff = MockVectorFunctionField(V, dict(save=True, save_as="xml.gz"))

    pp = PostProcessor(dict(casedir=casedir))
    pp.add_fields([mff, mvff])

    pp.update_all({}, 0.0, 0)
    pp.update_all({}, 0.1, 1)
    pp.update_all({}, 0.2, 2)
    pp.finalize_all()

    for mf, FS in [(mff, Q), (mvff, V)]:
        assert os.path.isdir(pp.get_savedir(mf.name))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), "metadata.db"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), "mesh.hdf5"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), mf.name + "0.xml.gz"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), mf.name + "1.xml.gz"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), mf.name + "2.xml.gz"))

        md = shelve.open(os.path.join(pp.get_savedir(mf.name), "metadata.db"),
                         'r')
        assert 'xml.gz' in md["0"]
        assert 'xml.gz' in md["1"]
        assert 'xml.gz' in md["2"]
        assert 'xml.gz' in md['saveformats']

        assert md['saveformats'] == ['xml.gz']
        md.close()

        assert len(os.listdir(pp.get_savedir(mf.name))) == 1 + 1 + 3

        # Read back
        for i in ["0", "1", "2"]:
            f = Function(
                FS,
                os.path.join(pp.get_savedir(mf.name), mf.name + i + ".xml.gz"))

        assert norm(f) == norm(pp.get(mf.name))
Exemplo n.º 7
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def test_hdf5_save(mesh, casedir):
    spacepool = SpacePool(mesh)
    Q = spacepool.get_space(1, 0)
    V = spacepool.get_space(1, 1)

    mff = MockFunctionField(Q, dict(save=True, save_as="hdf5"))
    mvff = MockVectorFunctionField(V, dict(save=True, save_as="hdf5"))

    pp = PostProcessor(dict(casedir=casedir))
    pp.add_fields([mff, mvff])

    pp.update_all({}, 0.0, 0)
    pp.update_all({}, 0.1, 1)
    pp.update_all({}, 0.2, 2)
    pp.finalize_all()

    for mf, FS in [(mff, Q), (mvff, V)]:
        assert os.path.isdir(pp.get_savedir(mf.name))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), "metadata.db"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), mf.name + ".hdf5"))

        md = shelve.open(os.path.join(pp.get_savedir(mf.name), "metadata.db"),
                         'r')
        assert 'hdf5' in md["0"]
        assert 'hdf5' in md["1"]
        assert 'hdf5' in md["2"]
        assert 'hdf5' in md['saveformats']

        assert md['saveformats'] == ['hdf5']
        md.close()

        assert len(os.listdir(pp.get_savedir(mf.name))) == 2

        # Read back
        hdf5file = HDF5File(
            mpi_comm_world(),
            os.path.join(pp.get_savedir(mf.name), mf.name + ".hdf5"), 'r')
        f = Function(FS)
        for i in ["0", "1", "2"]:
            hdf5file.read(f, mf.name + i)

        assert norm(f) == norm(pp.get(mf.name))
Exemplo n.º 8
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def test_playlog(casedir):
    pp = PostProcessor(dict(casedir=casedir))

    # Test playlog
    assert not os.path.isfile(os.path.join(casedir, 'play.db'))
    MPI.barrier(mpi_comm_world())

    pp.update_all({}, 0.0, 0)
    pp.finalize_all()

    playlog = pp.get_playlog('r')
    assert playlog == {"0": {"t": 0.0}}
    playlog.close()

    pp.update_all({}, 0.1, 1)
    pp.finalize_all()
    playlog = pp.get_playlog('r')
    assert playlog == {"0": {"t": 0.0}, "1": {"t": 0.1}}
    playlog.close()
Exemplo n.º 9
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def test_update_all():
    pressure = SolutionField("MockPressure")  #MockPressure()
    velocity = SolutionField("MockVelocity")  #MockVelocity()
    Du = MockVelocityGradient()
    epsilon = MockStrain(dict(start_timestep=3))
    sigma = MockStress(dict(start_time=0.5, end_time=0.8))

    # Add fields to postprocessor
    pp = PostProcessor()
    pp.add_fields([pressure, velocity, Du, epsilon, sigma])

    N = 11
    T = [(i, float(i) / (N - 1)) for i in xrange(N)]

    for timestep, t in T:
        pp.update_all(
            {
                "MockPressure": lambda: "p" + str(timestep),
                "MockVelocity": lambda: "u" + str(timestep)
            }, t, timestep)

        assert Du.touched == timestep + 1

        assert pp._cache[0]["MockPressure"] == "p%d" % timestep
        assert pp._cache[0]["MockVelocity"] == "u%d" % timestep
        assert pp._cache[0]["MockVelocityGradient"] == "grad(u%d)" % timestep

        if timestep >= 3:
            assert pp._cache[0][
                "MockStrain"] == "epsilon(grad(u%d))" % timestep
        else:
            assert "MockStrain" not in pp._cache[0]

        if 0.5 <= t <= 0.8:
            assert pp._cache[0][
                "MockStress"] == "sigma(epsilon(grad(u%d)), p%d)" % (timestep,
                                                                     timestep)
        else:
            assert "MockStress" not in pp._cache[0]
Exemplo n.º 10
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def test_basic_replay(mesh, casedir):
    spacepool = SpacePool(mesh)
    Q = spacepool.get_space(1,0)
    V = spacepool.get_space(1,1)

    pp = PostProcessor(dict(casedir=casedir))
    pp.add_fields([
        MockFunctionField(Q, dict(save=True)),
        MockVectorFunctionField(V, dict(save=True))
    ])

    replay_fields = lambda save: [Norm("MockFunctionField", dict(save=save)),
                             Norm("MockVectorFunctionField", dict(save=save)),
                             TimeIntegral("Norm_MockFunctionField", dict(save=save)),]
    rf_names = [f.name for f in replay_fields(False)]

    # Add fields, but don't save (for testing)
    pp.add_fields(replay_fields(False))

    # Solutions to check against
    checks = {}
    pp.update_all({}, 0.0, 0)
    checks[0] = dict([(name, pp.get(name)) for name in rf_names])
    pp.update_all({}, 0.1, 1)
    checks[1] = dict([(name, pp.get(name)) for name in rf_names])
    pp.update_all({}, 0.2, 2)
    pp.finalize_all()
    checks[2] = dict([(name, pp.get(name)) for name in rf_names])

    # Make sure that nothing is saved yet
    for name in rf_names:
        assert not os.path.isfile(os.path.join(pp.get_savedir(name), name+".db"))
    # ----------- Replay -----------------
    pp = PostProcessor(dict(casedir=casedir))

    pp.add_fields([
        MockFunctionField(Q),
        MockVectorFunctionField(V),
    ])

    # This time, save the fields
    pp.add_fields(replay_fields(True))

    replayer = Replay(pp)
    replayer.replay()

    # Test that replayed solution is the same as computed in the original "solve"
    for name in rf_names:
        data = shelve.open(os.path.join(pp.get_savedir(name), name+".db"), 'r')

        for i in range(3):
            assert data.get(str(i), None) == checks[i][name] or abs(data.get(str(i), None) - checks[i][name]) < 1e-8
        data.close()
Exemplo n.º 11
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    def replay(self):
        "Replay problem with given postprocessor."
        # Backup play log
        self.backup_playlog()

        # Set up for replay
        replay_plan = self._fetch_history()
        postprocessors = []
        for fieldname, field in self.postproc._fields.items():
            if not (field.params.save or field.params.plot):
                continue

            # Check timesteps covered by current field
            keys = self._check_field_coverage(replay_plan, fieldname)

            # Get the time dependency for the field
            t_dep = min(
                [dep[1]
                 for dep in self.postproc._dependencies[fieldname]] + [0])

            dep_fields = []
            for dep in self.postproc._full_dependencies[fieldname]:
                if dep[0] in ["t", "timestep"]:
                    continue

                if dep[0] in dep_fields:
                    continue

                # Copy dependency and set save/plot to False. If dependency should be
                # plotted/saved, this field will be added separately.
                dependency = self.postproc._fields[dep[0]]
                dependency = copy.copy(dependency)
                dependency.params.save = False
                dependency.params.plot = False
                dependency.params.safe = False

                dep_fields.append(dependency)

            added_to_postprocessor = False
            for i, (ppkeys, ppt_dep, pp) in enumerate(postprocessors):
                if t_dep == ppt_dep and set(keys) == set(ppkeys):
                    pp.add_fields(dep_fields, exists_reaction="ignore")
                    pp.add_field(field, exists_reaction="replace")

                    added_to_postprocessor = True
                    break
                else:
                    continue

            # Create new postprocessor if no suitable postprocessor found
            if not added_to_postprocessor:
                pp = PostProcessor(self.postproc.params, self.postproc._timer)
                pp.add_fields(dep_fields, exists_reaction="ignore")
                pp.add_field(field, exists_reaction="replace")

                postprocessors.append([keys, t_dep, pp])

        postprocessors = sorted(postprocessors,
                                key=itemgetter(1),
                                reverse=True)

        t_independent_fields = []
        for fieldname in self.postproc._fields:
            if self.postproc._full_dependencies[fieldname] == []:
                t_independent_fields.append(fieldname)
            elif min(t for dep, t in
                     self.postproc._full_dependencies[fieldname]) == 0:
                t_independent_fields.append(fieldname)

        # Run replay
        sorted_keys = sorted(replay_plan.keys())
        N = max(sorted_keys)
        for timestep in sorted_keys:
            cbc_print("Processing timestep %d of %d. %.3f%% complete." %
                      (timestep, N, 100.0 * (timestep) / N))

            # Load solution at this timestep (all available fields)
            solution = replay_plan[timestep]
            t = solution.pop("t")

            # Cycle through postprocessors and update if required
            for ppkeys, ppt_dep, pp in postprocessors:
                if timestep in ppkeys:
                    # Add dummy solutions to avoid error when handling dependencies
                    # We know this should work, because it has already been established that
                    # the fields to be computed at this timestep can be computed from stored
                    # solutions.
                    for field in pp._sorted_fields_keys:
                        for dep in reversed(pp._dependencies[field]):
                            if not have_necessary_deps(solution, pp, dep[0]):
                                solution[dep[0]] = lambda: None
                    pp.update_all(solution, t, timestep)

                    # Clear None-objects from solution
                    [
                        solution.pop(k) for k in solution.keys()
                        if not solution[k]
                    ]

                    # Update solution to avoid re-computing data
                    for fieldname, value in pp._cache[0].items():
                        if fieldname in t_independent_fields:
                            value = pp._cache[0][fieldname]
                            #solution[fieldname] = lambda value=value: value # Memory leak!
                            solution[fieldname] = MiniCallable(value)

            self.timer.increment()
            if self.params.check_memory_frequency != 0 and timestep % self.params.check_memory_frequency == 0:
                cbc_print('Memory usage is: %s' %
                          MPI.sum(mpi_comm_world(), get_memory_usage()))

            # Clean up solution: Required to avoid memory leak for some reason...
            for f, v in solution.items():
                if isinstance(v, MiniCallable):
                    v.value = None
                    del v
                    solution.pop(f)

        for ppkeys, ppt_dep, pp in postprocessors:
            pp.finalize_all()
Exemplo n.º 12
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def run_splitting_solver(domain, dt, T):

    # Create cardiac model  problem description
    cell_model = Tentusscher_panfilov_2006_epi_cell()
    heart = setup_model(cell_model, domain)

    # Customize and create monodomain solver
    ps = SplittingSolver.default_parameters()
    ps["pde_solver"] = "monodomain"
    ps["apply_stimulus_current_to_pde"] = True

    # 2nd order splitting scheme
    ps["theta"] = 0.5

    # Use explicit first-order Rush-Larsen scheme for the ODEs
    ps["ode_solver_choice"] = "CardiacODESolver"
    ps["CardiacODESolver"]["scheme"] = "RL1"

    # Crank-Nicolson discretization for PDEs in time:
    ps["MonodomainSolver"]["theta"] = 0.5
    ps["MonodomainSolver"]["linear_solver_type"] = "iterative"
    ps["MonodomainSolver"]["algorithm"] = "cg"
    ps["MonodomainSolver"]["preconditioner"] = "petsc_amg"

    # Create solver
    solver = SplittingSolver(heart, params=ps)

    # Extract the solution fields and set the initial conditions
    (vs_, vs, vur) = solver.solution_fields()
    vs_.assign(cell_model.initial_conditions())
    solutions = solver.solve((0, T), dt)


    postprocessor = PostProcessor(dict(casedir="test", clean_casedir=True))
    postprocessor.store_mesh(heart.domain())

    field_params = dict(
        save=True,
        save_as=["hdf5", "xdmf"],
        plot=False,
        start_timestep=-1,
        stride_timestep=1
    )

    postprocessor.add_field(SolutionField("v", field_params))
    theta = ps["theta"]

    # Solve
    total = Timer("XXX Total cbcbeat solver time")
    for i, (timestep, (vs_, vs, vur)) in enumerate(solutions):

        t0, t1 = timestep
        current_t = t0 + theta*(t1 - t0)    
        postprocessor.update_all({"v": lambda: vur}, current_t, i)
        print("Solving on %s" % str(timestep))

        # Print memory usage (just for the fun of it)
        print(memory_usage())

    total.stop()

    # Plot result (as sanity check)
    #plot(vs[0], interactive=True)

    # Stop timer and list timings
    if MPI.rank(mpi_comm_world()) == 0:
        list_timings(TimingClear_keep, [TimingType_wall])
Exemplo n.º 13
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def test_pvd_save(mesh, casedir):
    spacepool = SpacePool(mesh)
    Q = spacepool.get_space(1, 0)
    V = spacepool.get_space(1, 1)

    mff = MockFunctionField(Q, dict(save=True, save_as="pvd"))
    mvff = MockVectorFunctionField(V, dict(save=True, save_as="pvd"))

    pp = PostProcessor(dict(casedir=casedir))
    pp.add_fields([mff, mvff])

    pp.update_all({}, 0.0, 0)
    pp.update_all({}, 0.1, 1)
    pp.update_all({}, 0.2, 2)
    pp.finalize_all()

    for mf, FS in [(mff, Q), (mvff, V)]:
        assert os.path.isdir(pp.get_savedir(mf.name))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), "metadata.db"))
        assert os.path.isfile(
            os.path.join(pp.get_savedir(mf.name), mf.name + ".pvd"))
        if MPI.size(mpi_comm_world()) == 1:
            assert os.path.isfile(
                os.path.join(pp.get_savedir(mf.name),
                             mf.name + "%0.6d.vtu" % 0))
            assert os.path.isfile(
                os.path.join(pp.get_savedir(mf.name),
                             mf.name + "%0.6d.vtu" % 1))
            assert os.path.isfile(
                os.path.join(pp.get_savedir(mf.name),
                             mf.name + "%0.6d.vtu" % 2))
        else:
            assert os.path.isfile(
                os.path.join(pp.get_savedir(mf.name),
                             mf.name + "%0.6d.pvtu" % 0))
            assert os.path.isfile(
                os.path.join(pp.get_savedir(mf.name),
                             mf.name + "%0.6d.pvtu" % 1))
            assert os.path.isfile(
                os.path.join(pp.get_savedir(mf.name),
                             mf.name + "%0.6d.pvtu" % 2))

            for i in range(MPI.size(mpi_comm_world())):
                assert os.path.isfile(
                    os.path.join(pp.get_savedir(mf.name),
                                 mf.name + "_p%d_%0.6d.vtu" % (i, 0)))
                assert os.path.isfile(
                    os.path.join(pp.get_savedir(mf.name),
                                 mf.name + "_p%d_%0.6d.vtu" % (i, 1)))
                assert os.path.isfile(
                    os.path.join(pp.get_savedir(mf.name),
                                 mf.name + "_p%d_%0.6d.vtu" % (i, 2)))

        md = shelve.open(os.path.join(pp.get_savedir(mf.name), "metadata.db"),
                         'r')
        assert 'pvd' in md["0"]
        assert 'pvd' in md["1"]
        assert 'pvd' in md["2"]
        assert md['saveformats'] == ['pvd']
        md.close()

        assert len(os.listdir(pp.get_savedir(mf.name))) == 1 + 1 + 3 + int(
            MPI.size(mpi_comm_world()) != 1) * MPI.size(mpi_comm_world()) * 3