Exemple #1
0
def test_01():

    # Source data

    data_dir = os.path.dirname(os.path.abspath(__file__))
    data_ccp4 = os.path.join(data_dir, 'data', 'non_zero_origin_map.ccp4')
    data_pdb = os.path.join(data_dir, 'data', 'non_zero_origin_model.pdb')
    data_ncs_spec = os.path.join(data_dir, 'data',
                                 'non_zero_origin_ncs_spec.ncs_spec')

    # DataManager

    dm = DataManager(['ncs_spec', 'model', 'real_map', 'phil'])
    dm.set_overwrite(True)

    # Read in map and model and ncs

    map_file = data_ccp4
    dm.process_real_map_file(map_file)
    mm = dm.get_real_map(map_file)

    model_file = data_pdb
    dm.process_model_file(model_file)
    model = dm.get_model(model_file)

    ncs_file = data_ncs_spec
    dm.process_ncs_spec_file(ncs_file)
    ncs = dm.get_ncs_spec(ncs_file)

    ncs_dc = ncs.deep_copy()

    mmmn = match_map_model_ncs()
    mmmn.add_map_manager(mm)
    mmmn.add_model(model)
    mmmn.add_ncs_object(ncs)

    # Save it
    mmmn_dc = mmmn.deep_copy()

    # Make sure we can add an ncs object that is either shifted or not
    mmmn_dcdc = mmmn.deep_copy()
    new_mmmn = match_map_model_ncs()
    new_mmmn.add_map_manager(mmmn_dcdc.map_manager())
    new_mmmn.add_model(mmmn_dcdc.model())
    new_mmmn.add_ncs_object(mmmn_dcdc.ncs_object())
    assert new_mmmn.ncs_object().shift_cart() == new_mmmn.map_manager(
    ).shift_cart()

    mmmn_dcdc = mmmn.deep_copy()
    new_mmmn = match_map_model_ncs()
    new_mmmn.add_map_manager(mmmn_dcdc.map_manager())
    new_mmmn.add_model(mmmn_dcdc.model())
    new_mmmn.add_ncs_object(ncs_dc)
    assert new_mmmn.ncs_object().shift_cart() == new_mmmn.map_manager(
    ).shift_cart()

    original_ncs = mmmn.ncs_object()
    assert approx_equal(
        (24.0528, 11.5833, 20.0004),
        tuple(original_ncs.ncs_groups()[0].translations_orth()[-1]),
        eps=0.1)

    assert tuple(mmmn._map_manager.origin_shift_grid_units) == (0, 0, 0)

    # Shift origin to (0,0,0)
    mmmn = mmmn_dc.deep_copy()  # fresh version of match_map_model_ncs
    mmmn.shift_origin()
    new_ncs = mmmn.ncs_object()
    assert tuple(mmmn._map_manager.origin_shift_grid_units) == (100, 100, 100)

    mmmn.write_model('s.pdb')
    mmmn.write_map('s.mrc')

    shifted_ncs = mmmn.ncs_object()
    assert approx_equal(
        (-153.758, -74.044, -127.487),
        tuple(shifted_ncs.ncs_groups()[0].translations_orth()[-1]),
        eps=0.1)

    # Shift a model and shift it back

    mmmn = mmmn_dc.deep_copy()  # fresh version of match_map_model_ncs
    model = mmmn.model()
    shifted_model = mmmn.shift_model_to_match_working_map(model=model)
    model_in_original_position = mmmn.shift_model_to_match_original_map(
        model=shifted_model)
    assert (approx_equal(
        model.get_sites_cart(),  # not a copy
        shifted_model.get_sites_cart()))
    assert approx_equal(model.get_sites_cart(),
                        model_in_original_position.get_sites_cart())

    # test data_manager map_model_manager
    generated_mmm = dm.get_map_model_manager()
    print(generated_mmm)
    assert (isinstance(generated_mmm, map_model_manager))

    # Generate a map and model

    import sys
    mmm = map_model_manager(log=sys.stdout)
    mmm.generate_map()
    model = mmm.model()
    mm = mmm.map_manager()
    assert approx_equal(model.get_sites_cart()[0], (14.476, 10.57, 8.34),
                        eps=0.01)
    assert approx_equal(mm.map_data()[10, 10, 10], -0.0506, eps=0.001)
    # Save it
    mmm_dc = mmm.deep_copy()

    # Create model from sites
    mmm_sites = mmm_dc.deep_copy()
    from scitbx.array_family import flex
    sites_cart = flex.vec3_double()
    sites_cart.append((3, 4, 5))
    mmm_sites.model_from_sites_cart(sites_cart=sites_cart,
                                    model_id='new_model')
    assert mmm_sites.get_model_by_id('new_model').get_sites_cart()[0] == (3, 4,
                                                                          5)

    # Set crystal_symmetry and unit_cell_crystal_symmetry and shift_cart
    # Box and shift the map_model_manager so we have new coordinate system
    mmm_sites.box_all_maps_around_model_and_shift_origin()
    new_model = mmm_sites.get_model_by_id('new_model')
    assert approx_equal(
        (3.747033333333334, 4.723075000000001, 5.0),
        mmm_sites.get_model_by_id('new_model').get_sites_cart()[0])

    # arbitrarily set unit_cell crystal symmetry of model to
    #  match crystal_symmetry. First have to set shift_cart to None
    new_model.set_shift_cart(shift_cart=None)
    new_model.set_unit_cell_crystal_symmetry_and_shift_cart()
    assert new_model.crystal_symmetry() != mmm_sites.crystal_symmetry()

    # now set crystal symmetries and shift cart of model to match the manager
    mmm_sites.set_model_symmetries_and_shift_cart_to_match_map(new_model)
    assert new_model.crystal_symmetry().is_similar_symmetry(
        mmm_sites.crystal_symmetry())
    assert new_model.unit_cell_crystal_symmetry().is_similar_symmetry(
        mmm_sites.unit_cell_crystal_symmetry())
    assert new_model.shift_cart() == mmm_sites.shift_cart()

    # Import hierarchy into a model and set symmetries and shift to match
    mmm_sites.model_from_hierarchy(hierarchy=mmm_sites.model().get_hierarchy(),
                                   model_id='model_from_hierarchy')
    assert mmm_sites.get_model_by_id('model_from_hierarchy').model_as_pdb() \
       == mmm_sites.get_model_by_id('model').model_as_pdb()

    # Check on wrapping
    assert not mm.wrapping(
    )  # this one should not wrap because it is zero at edges

    # Make a new one with no buffer so it is not zero at edges
    mmm = map_model_manager()
    mmm.generate_map(box_cushion=0)
    mm = mmm.map_manager()
    # check its compatibility with wrapping
    assert mm.is_consistent_with_wrapping()
    mmm.show_summary()

    # now box it
    sel = mmm.model().selection("resseq 221:221")
    new_model = mmm.model().deep_copy().select(sel)
    new_mmm = map_model_manager(model=new_model, map_manager=mm.deep_copy())
    new_mmm.box_all_maps_around_model_and_shift_origin()
    new_mm = new_mmm.map_manager()

    assert not new_mm.wrapping()
    assert not new_mm.is_consistent_with_wrapping()

    # now box it with selection
    new_mmm_1 = map_model_manager(model=mmm.model().deep_copy(),
                                  map_manager=mm.deep_copy())
    new_mmm_1.box_all_maps_around_model_and_shift_origin(
        selection_string="resseq 221:221")
    new_mm_1 = new_mmm_1.map_manager()

    assert not new_mm_1.wrapping()
    assert not new_mm_1.is_consistent_with_wrapping()
    assert new_mm_1.map_data().all() == new_mm.map_data().all()

    # create map_model_manager with just half-maps
    mm1 = mm.deep_copy()
    mm2 = mm.deep_copy()
    map_data = mm2.map_data()
    map_data += 1.
    new_mmm = map_model_manager(model=mmm.model().deep_copy(),
                                map_manager_1=mm1,
                                map_manager_2=mm2)
    assert new_mmm._map_dict.get(
        'map_manager') is None  # should not be any yet
    assert approx_equal(new_mmm.map_manager().map_data()[232],
                        mm.deep_copy().map_data()[232] + 0.5)
    assert new_mmm._map_dict.get(
        'map_manager') is not None  # now should be there

    # generate map data from a model
    mm1 = mm.deep_copy()
    mm2 = mm.deep_copy()
    new_mmm = map_model_manager(model=mmm.model().deep_copy(), map_manager=mm1)
    mmm.generate_map(model=mmm.model())
    mm = mmm.map_manager()
    mmm.show_summary()

    # check get_map_model_manager function
    dm = DataManager(['model'])
    assert not hasattr(dm, 'get_map_model_manager')
    dm = DataManager(['real_map'])
    assert not hasattr(dm, 'get_map_model_manager')
    dm = DataManager(['sequence'])
    assert not hasattr(dm, 'get_map_model_manager')
    dm = DataManager(['model', 'real_map'])
    assert hasattr(dm, 'get_map_model_manager')

    # usage
    dm.get_map_model_manager(model_file=data_pdb, map_files=data_ccp4)
    dm.get_map_model_manager(model_file=data_pdb, map_files=[data_ccp4])
    dm.get_map_model_manager(model_file=data_pdb,
                             map_files=[data_ccp4, data_ccp4, data_ccp4])
    dm.get_map_model_manager(model_file=data_pdb,
                             map_files=data_ccp4,
                             ignore_symmetry_conflicts=True)

    # errors
    try:
        dm.get_map_model_manager(model_file=data_pdb,
                                 map_files=data_ccp4,
                                 from_phil=True)
    except Sorry as e:
        assert 'from_phil is set to True' in str(e)
    try:
        dm.get_map_model_manager(model_file=data_pdb,
                                 map_files=data_ccp4,
                                 abc=123)
    except TypeError as e:
        assert 'unexpected keyword argument' in str(e)
    try:
        dm.get_map_model_manager(model_file=data_pdb,
                                 map_files=[data_ccp4, data_ccp4])
    except Sorry as e:
        assert '1 full map and 2 half maps' in str(e)

    # PHIL
    class test_program(ProgramTemplate):
        master_phil_str = '''
include scope iotbx.map_model_manager.map_model_phil_str
'''

    working_phil_str = '''
  map_model {
    full_map = %s
    half_map = %s
    half_map = s.mrc
    model = %s
  }
''' % (data_ccp4, data_ccp4, data_pdb)

    master_phil = parse(test_program.master_phil_str, process_includes=True)
    working_phil = master_phil.fetch(parse(working_phil_str))
    tp = test_program(dm, working_phil.extract())

    try:
        dm.get_map_model_manager(from_phil=True)
    except Exception as e:
        assert 'ignore_symmetry_conflicts' in str(e)
    try:
        dm.get_map_model_manager(from_phil=True,
                                 ignore_symmetry_conflicts=True)
    except AssertionError:
        pass
Exemple #2
0
def test_01():

  # Source data

  data_dir = os.path.dirname(os.path.abspath(__file__))
  data_ccp4 = os.path.join(data_dir, 'data',
                          'non_zero_origin_map.ccp4')
  data_pdb = os.path.join(data_dir, 'data',
                          'non_zero_origin_model.pdb')
  data_ncs_spec = os.path.join(data_dir, 'data',
                          'non_zero_origin_ncs_spec.ncs_spec')

  # DataManager

  dm = DataManager(['ncs_spec','model', 'real_map', 'phil'])
  dm.set_overwrite(True)

  # Read in map and model and ncs

  map_file=data_ccp4
  dm.process_real_map_file(map_file)
  mm = dm.get_real_map(map_file)

  model_file=data_pdb
  dm.process_model_file(model_file)
  model = dm.get_model(model_file)

  ncs_file=data_ncs_spec
  dm.process_ncs_spec_file(ncs_file)
  ncs = dm.get_ncs_spec(ncs_file)

  ncs_dc = ncs.deep_copy()

  mmmn = match_map_model_ncs()
  mmmn.add_map_manager(mm)
  mmmn.add_model(model)
  mmmn.add_ncs_object(ncs)

  # Save it
  mmmn_dc=mmmn.deep_copy()

  # Make sure we can add an ncs object that is either shifted or not
  mmmn_dcdc=mmmn.deep_copy()
  new_mmmn = match_map_model_ncs()
  new_mmmn.add_map_manager(mmmn_dcdc.map_manager())
  new_mmmn.add_model(mmmn_dcdc.model())
  new_mmmn.add_ncs_object(mmmn_dcdc.ncs_object())
  assert new_mmmn.ncs_object().shift_cart() == new_mmmn.map_manager().shift_cart()

  mmmn_dcdc=mmmn.deep_copy()
  new_mmmn = match_map_model_ncs()
  new_mmmn.add_map_manager(mmmn_dcdc.map_manager())
  new_mmmn.add_model(mmmn_dcdc.model())
  new_mmmn.add_ncs_object(ncs_dc)
  assert new_mmmn.ncs_object().shift_cart() == new_mmmn.map_manager().shift_cart()


  original_ncs=mmmn.ncs_object()
  assert approx_equal((24.0528, 11.5833, 20.0004),
     tuple(original_ncs.ncs_groups()[0].translations_orth()[-1]),
     eps=0.1)

  assert tuple(mmmn._map_manager.origin_shift_grid_units) == (0,0,0)

  # Shift origin to (0,0,0)
  mmmn=mmmn_dc.deep_copy()  # fresh version of match_map_model_ncs
  mmmn.shift_origin()
  new_ncs=mmmn.ncs_object()
  assert tuple(mmmn._map_manager.origin_shift_grid_units) == (100,100,100)

  mmmn.write_model('s.pdb')
  mmmn.write_map('s.mrc')

  shifted_ncs=mmmn.ncs_object()
  assert approx_equal((-153.758, -74.044, -127.487),
      tuple(shifted_ncs.ncs_groups()[0].translations_orth()[-1]),eps=0.1)


  # Shift a model and shift it back

  mmmn=mmmn_dc.deep_copy()  # fresh version of match_map_model_ncs
  model=mmmn.model()
  shifted_model=mmmn.shift_model_to_match_working_map(model=model)
  model_in_original_position=mmmn.shift_model_to_match_original_map(
      model=shifted_model)
  assert (approx_equal(model.get_sites_cart(), # not a copy
                      shifted_model.get_sites_cart()))
  assert approx_equal(model.get_sites_cart(),
                      model_in_original_position.get_sites_cart())


  # Generate a map and model

  import sys
  mmm=map_model_manager(log=sys.stdout)
  mmm.generate_map()
  model=mmm.model()
  mm=mmm.map_manager()
  assert approx_equal(
     model.get_sites_cart()[0], (14.476, 10.57, 8.34) ,eps=0.01)
  assert approx_equal(mm.map_data()[10,10,10],-0.0195,eps=0.001)
  # Save it
  mmm_dc=mmm.deep_copy()

  # Check on wrapping
  assert not mm.wrapping()  # this one should not wrap because it is zero at edges

  # Make a new one with no buffer so it is not zero at edges
  mmm=map_model_manager()
  mmm.generate_map(box_cushion=0)
  mm=mmm.map_manager()
  # check its compatibility with wrapping
  assert mm.is_consistent_with_wrapping()
  mmm.show_summary()

  # now box it
  sel=mmm.model().selection("resseq 221:221")
  new_model=mmm.model().deep_copy().select(sel)
  new_mmm=map_model_manager(model=new_model,map_manager=mm.deep_copy())
  new_mmm.box_all_maps_around_model_and_shift_origin()
  new_mm=new_mmm.map_manager()

  assert not new_mm.wrapping()
  assert not new_mm.is_consistent_with_wrapping()

  # now box it with selection
  new_mmm_1=map_model_manager(
      model=mmm.model().deep_copy(),map_manager=mm.deep_copy())
  new_mmm_1.box_all_maps_around_model_and_shift_origin(
      selection_string="resseq 221:221")
  new_mm_1=new_mmm_1.map_manager()

  assert not new_mm_1.wrapping()
  assert not new_mm_1.is_consistent_with_wrapping()
  assert new_mm_1.map_data().all()== new_mm.map_data().all()

  # create map_model_manager with just half-maps
  mm1=mm.deep_copy()
  mm2=mm.deep_copy()
  map_data=mm2.map_data()
  map_data+=1.
  new_mmm=map_model_manager(model=mmm.model().deep_copy(),
    map_manager_1=mm1,
    map_manager_2=mm2)
  assert new_mmm._map_dict.get('map_manager') is None # should not be any yet
  assert approx_equal(new_mmm.map_manager().map_data()[232],
     mm.deep_copy().map_data()[232]+0.5)
  assert new_mmm._map_dict.get('map_manager') is not None # now should be there

  # generate map data from a model
  mm1=mm.deep_copy()
  mm2=mm.deep_copy()
  new_mmm=map_model_manager(model=mmm.model().deep_copy(), map_manager=mm1)
  mmm.generate_map(model=mmm.model())
  mm=mmm.map_manager()
  mmm.show_summary()