def plot_scaling_models(scaling_model_dict):
d = OrderedDict()
if scaling_model_dict["__id__"] == "physical":
model = PhysicalScalingModel.from_dict(scaling_model_dict)
d.update(_plot_smooth_scales(model))
if "absorption" in model.components:
d.update(plot_absorption_parameters(model))
d.update(plot_absorption_surface(model))
return d
def test_plot_scaling_models():
physical_dict = {
"__id__": "physical",
"is_scaled": True,
"scale": {
"n_parameters": 2,
"parameters": [0.5, 1.0],
"est_standard_devs": [0.05, 0.1],
},
"configuration_parameters": {
"corrections": ["scale", "decay", "absorption"],
"s_norm_fac": 0.1,
"d_norm_fac": 0.1,
"scale_rot_interval": 10.0,
"decay_rot_interval": 10.0,
"decay_restaint": 1e-1,
"valid_osc_range": [0.0, 2.0],
},
"decay": {
"n_parameters": 2,
"parameters": [0.5, 1.0],
"est_standard_devs": [0.05, 0.1],
},
"absorption": {
"n_parameters": 4,
"parameters": [0.1, -0.1, 0.05, -0.05],
"est_standard_devs": [0.005, 0.005, 0.005, 0.005],
},
}
d = plot_scaling_models(PhysicalScalingModel.from_dict(physical_dict))
assert "smooth_scale_model" in d
assert "absorption_surface" in d
assert "absorption_parameters" in d
assert d["smooth_scale_model"]["data"][0] != []
assert d["absorption_parameters"]["data"][0] != []
def test_PhysicalScalingModel(test_reflections, mock_exp):
"""Test the PhysicalScalingModel class."""
configdict = {
"corrections": ["scale", "decay", "absorption"],
"s_norm_fac": 1.0,
"scale_rot_interval": 2.0,
"d_norm_fac": 1.0,
"decay_rot_interval": 2.0,
"lmax": 1,
"abs_surface_weight": 1e6,
}
parameters_dict = {
"scale": {
"parameters": flex.double([1.2, 1.1]),
"parameter_esds": None
},
"decay": {
"parameters": flex.double([0.1, 0.2]),
"parameter_esds": None
},
"absorption": {
"parameters": flex.double([0.01, 0.01, 0.01]),
"parameter_esds": None,
},
}
# Test standard factory initialisation
physicalmodel = PhysicalScalingModel(parameters_dict, configdict)
assert physicalmodel.id_ == "physical"
assert "Absorption component" in str(physicalmodel)
comps = physicalmodel.components
assert "scale" in comps
assert "absorption" in comps
assert "decay" in comps
assert list(comps["scale"].parameters) == [1.2, 1.1]
assert list(comps["decay"].parameters) == [0.1, 0.2]
assert list(comps["absorption"].parameters) == [0.01, 0.01, 0.01]
# Test configure reflection table
mock_params = Mock()
mock_params.physical.decay_restraint = 0.0
physicalmodel.configure_components(test_reflections, mock_exp, mock_params)
# Test from_dict initialisation method.
physical_dict = {
"__id__": "physical",
"is_scaled": True,
"scale": {
"n_parameters": 2,
"parameters": [0.5, 1.0],
"est_standard_devs": [0.05, 0.1],
"null_parameter_value": 1,
},
"configuration_parameters": {
"corrections": ["scale"],
"s_norm_fac": 0.1,
"scale_rot_interval": 10.0,
"decay_restaint": 1e-1,
},
}
physicalmodel = PhysicalScalingModel.from_dict(physical_dict)
assert physicalmodel.id_ == "physical"
assert "scale" in physicalmodel.components
assert "absorption" not in physicalmodel.components
assert "decay" not in physicalmodel.components
assert list(physicalmodel.components["scale"].parameters) == [0.5, 1.0]
assert list(
physicalmodel.components["scale"].parameter_esds) == [0.05, 0.1]
new_dict = physicalmodel.to_dict()
assert new_dict == physical_dict
# Test from_dict initialisation method for all components.
physical_dict = {
"__id__": "physical",
"is_scaled": True,
"scale": {
"n_parameters": 2,
"parameters": [0.5, 1.0],
"est_standard_devs": [0.05, 0.1],
"null_parameter_value": 1,
},
"decay": {
"n_parameters": 2,
"parameters": [0.1, 0.2],
"est_standard_devs": [0.01, 0.01],
"null_parameter_value": 0,
},
"absorption": {
"n_parameters": 3,
"parameters": [0.0, 0.1, 0.2],
"est_standard_devs": [0.01, 0.02, 0.03],
"null_parameter_value": 0,
},
"configuration_parameters": {
"corrections": ["scale", "decay", "absorption"],
"s_norm_fac": 0.1,
"scale_rot_interval": 10.0,
"d_norm_fac": 0.2,
"decay_rot_interval": 20.0,
"lmax": 1,
"abs_surface_weight": 1e6,
},
}
physicalmodel = PhysicalScalingModel.from_dict(physical_dict)
assert physicalmodel.id_ == "physical"
assert "scale" in physicalmodel.components
assert "absorption" in physicalmodel.components
assert "decay" in physicalmodel.components
assert list(physicalmodel.components["scale"].parameters) == [0.5, 1.0]
assert list(
physicalmodel.components["scale"].parameter_esds) == [0.05, 0.1]
assert list(physicalmodel.components["decay"].parameters) == [0.1, 0.2]
assert list(
physicalmodel.components["decay"].parameter_esds) == [0.01, 0.01]
assert list(
physicalmodel.components["absorption"].parameters) == [0.0, 0.1, 0.2]
assert list(physicalmodel.components["absorption"].parameter_esds) == [
0.01,
0.02,
0.03,
]
new_dict = physicalmodel.to_dict()
assert new_dict == physical_dict
with pytest.raises(RuntimeError):
physical_dict["__id__"] = "array"
physicalmodel = PhysicalScalingModel.from_dict(physical_dict)
assert len(physicalmodel.consecutive_refinement_order) == 2
assert "Absorption component:" in str(physicalmodel)
# test limit batch range
parameters_dict = {
"scale": {
"n_parameters": 11,
"parameters":
[0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0, 5.5],
"parameter_esds": None,
},
"decay": {
"n_parameters": 11,
"parameters":
[0.1, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.1],
"parameter_esds": None,
},
}
configdict = {
"corrections": ["scale", "decay"],
"s_norm_fac": 0.1,
"scale_rot_interval": 10.0,
"d_norm_fac": 0.1,
"decay_rot_interval": 10.0,
"valid_image_range": (1, 90),
"valid_osc_range": (0, 90),
}
physical = PhysicalScalingModel(parameters_dict, configdict)
physical.limit_image_range((1, 50))
assert list(physical.components["scale"].parameters) == [
0.5,
1.0,
1.5,
2.0,
2.5,
3.0,
3.5,
]
assert list(physical.components["decay"].parameters) == [
0.1,
0.2,
0.3,
0.4,
0.5,
0.6,
0.7,
]
assert physical.configdict["valid_osc_range"] == (0, 50)
assert physical.configdict["valid_image_range"] == (1, 50)
# try edge cases
# if restricted by > rot int, then reduce number of params and shift offset
# if necessary
physical = PhysicalScalingModel(copy.deepcopy(parameters_dict),
copy.deepcopy(configdict))
physical.limit_image_range((7, 45))
assert list(physical.components["scale"].parameters) == [
1.0,
1.5,
2.0,
2.5,
3.0,
3.5,
]
assert list(physical.components["decay"].parameters) == [
0.2,
0.3,
0.4,
0.5,
0.6,
0.7,
]
assert physical.configdict["valid_osc_range"] == (6, 45)
assert physical.configdict["valid_image_range"] == (7, 45)
# if not restricted by > rot int, then should 'squeeze' the parameters closer
# in rotation angle, leaving the same number of params (as reducing number of
# params would give parameter spacing greater than initially specified rot int)
physical = PhysicalScalingModel(copy.deepcopy(parameters_dict),
copy.deepcopy(configdict))
physical.limit_image_range((5, 45))
assert list(physical.components["scale"].parameters) == [
0.5,
1.0,
1.5,
2.0,
2.5,
3.0,
3.5,
]
assert list(physical.components["decay"].parameters) == [
0.1,
0.2,
0.3,
0.4,
0.5,
0.6,
0.7,
]
assert physical.configdict["valid_osc_range"] == (4, 45)
assert physical.configdict["valid_image_range"] == (5, 45)
def from_dict(d):
"""creates a scaling model from a dict"""
from dials.algorithms.scaling.model.model import PhysicalScalingModel
return PhysicalScalingModel.from_dict(d)