Ejemplo n.º 1
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    def test_alternate_fails_unless_squashed(self):
        tmp_dir = mkdtemp() + os.path.sep
        cols, rows, alternate = 3000, 2000, True
        self.steps_to_do = cols * rows
        xs = LineGenerator("x", "mm", 0.0, 0.5, cols, alternate=alternate)
        ys = LineGenerator("y", "mm", 0.0, 0.1, rows)
        self.generator = CompoundGenerator([ys, xs], [], [], 0.1)
        self.generator.prepare()

        with self.assertRaises(BadValueError):
            self.o.on_configure(
                self.context,
                self.completed_steps,
                self.steps_to_do,
                generator=self.generator,
                fileDir=tmp_dir,
                formatName="odin3",
            )

        self.generator = CompoundGenerator(
            [ys, xs], [SquashingExcluder(axes=["x", "y"])], [], 0.1)
        self.generator.prepare()
        self.o.on_configure(
            self.context,
            self.completed_steps,
            self.steps_to_do,
            generator=self.generator,
            fileDir=tmp_dir,
            formatName="odin2",
        )
Ejemplo n.º 2
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    def test_from_dict(self):
        _dict = dict()

        _dict['axes'] = ["x", "y"]

        e = SquashingExcluder.from_dict(_dict)

        self.assertEqual(["x", "y"], e.axes)
Ejemplo n.º 3
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 def _configure_args(
     self,
     generator: AGenerator,
     file_dir: AFileDir,
     detectors: ADetectorTable = None,
     axes_to_move: AAxesToMove = None,
     breakpoints: ABreakpoints = None,
     file_template: AFileTemplate = "%s.h5",
 ) -> Tuple[bool, int, Dict[str, Any]]:
     # Check the detector table to see what we need to do
     assert detectors, "No detectors"
     for enable, name, mri, exposure, frames in detectors.rows():
         if name == self.name and enable:
             # Found a row saying to take part
             assert mri == self.mri, "%s has mri %s, passed %s" % (
                 name,
                 self.mri,
                 mri,
             )
             break
     else:
         # Didn't find a row or no frames, don't take part
         return False, 0, {}
     # If we had more than one frame per point, multiply out
     if frames > 1:
         axis_name = name + "_frames_per_step"
         axes_to_move = list(cast(Iterable, axes_to_move)) + [axis_name]
         # We need to multiply up the last dimension by frames
         serialized = dict(generator.to_dict())
         serialized["generators"] = list(serialized["generators"]) + [
             StaticPointGenerator(frames, axes=[axis_name])
         ]
         # Squash it down with the axes of the fastest generator
         squash_axes = list(generator.generators[-1].axes) + [axis_name]
         serialized["excluders"] = list(serialized["excluders"]) + [
             SquashingExcluder(axes=squash_axes)
         ]
         # Divide it down
         serialized["duration"] = float(serialized["duration"]) / frames
         generator = CompoundGenerator.from_dict(serialized)
     kwargs = dict(
         generator=generator,
         axesToMove=axes_to_move,
         breakpoints=breakpoints,
         fileDir=file_dir,
         # formatName is the unique part of the HDF filename, so use the part
         # name for this
         formatName=self.name,
         fileTemplate=file_template,
     )
     if exposure > 0.0:
         kwargs["exposure"] = exposure
     return enable, frames, kwargs
Ejemplo n.º 4
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class TestCreateMask(ScanPointGeneratorTest):
    def setUp(self):
        self.e = SquashingExcluder(["x", "y"])

    def test_create_mask_returns_all_points(self):
        x_points = np.array([1, 2, 3, 4])
        y_points = np.array([10, 10, 20, 20])
        expected_mask = np.array([True, True, True, True])

        mask = self.e.create_mask(x_points, y_points)

        self.assertEqual(expected_mask.tolist(), mask.tolist())
Ejemplo n.º 5
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def make_generator(squashed=False, include_z=False):
    line0 = LineGenerator("z", "mm", 0, 2, 4)
    line1 = LineGenerator("y", "mm", 0, 2, 3)
    line2 = LineGenerator("x", "mm", 0, 2, 2, alternate=True)
    if squashed:
        excluders = [SquashingExcluder(axes=("x", "y"))]
    else:
        excluders = []
    if include_z:
        generators = [line0, line1, line2]
    else:
        generators = [line1, line2]
    compound = CompoundGenerator(generators, excluders, [])
    return compound
Ejemplo n.º 6
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 def test_configure_multiple_no_exposure(self):
     xs = LineGenerator("x", "mm", 0.0, 0.3, 4)
     ys = LineGenerator("y", "mm", 0.0, 0.1, 2)
     generator = CompoundGenerator([ys, xs], [], [], 1.0)
     generator.prepare()
     detectors = DetectorTable.from_rows([[True, "det", "DET", 0.0, 5]])
     self.o.on_configure(self.context, generator, detectors)
     assert self.o.generator_duration == 1.0
     assert self.o.frames_per_step == 5
     # Detector would normally be configured by DetectorChildPart
     detector = self.process.block_view("DET")
     spg = StaticPointGenerator(5, axes=["det_frames_per_step"])
     ex = SquashingExcluder(axes=["det_frames_per_step", "x"])
     generatormultiplied = CompoundGenerator([ys, xs, spg], [ex], [], 0.2)
     detector.configure(generatormultiplied, self.tmpdir)
     self.o.on_post_configure()
     self.check_pulse_mocks(0.19899, 0.2, 0.000505, 5)
Ejemplo n.º 7
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 def on_validate(self, generator: AGenerator,
                 axesToMove: AAxesToMove) -> UParameterTweakInfos:
     if len(axesToMove) in (0, 1):
         # We can't have multiple dimensions here, so this must be ok
         return None
     # Check that we have a Squashing excluder in the generator which
     # contains all the axesToMove
     for excluder in generator.excluders:
         if isinstance(excluder, SquashingExcluder) and set(
                 excluder.axes) == set(axesToMove):
             # We have already squashed the axes, so nothing to do
             return None
     # We need to squash any dimension containing axesToMove down
     serialized = dict(generator.to_dict())
     serialized["excluders"] = list(
         serialized["excluders"]) + [SquashingExcluder(axes=axesToMove)]
     new_generator = CompoundGenerator.from_dict(serialized)
     return ParameterTweakInfo("generator", new_generator)
Ejemplo n.º 8
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class TestSerialisation(unittest.TestCase):
    def setUp(self):

        self.e = SquashingExcluder(["x", "y"])

    def test_to_dict(self):
        expected_dict = dict()
        expected_dict['typeid'] = \
            "scanpointgenerator:excluder/SquashingExcluder:1.0"
        expected_dict['axes'] = ["x", "y"]

        d = self.e.to_dict()

        self.assertEqual(expected_dict, d)

    def test_from_dict(self):
        _dict = dict()

        _dict['axes'] = ["x", "y"]

        e = SquashingExcluder.from_dict(_dict)

        self.assertEqual(["x", "y"], e.axes)
Ejemplo n.º 9
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    def setUp(self):

        self.e = SquashingExcluder(["x", "y"])