dffca62f81
MeasurementPlane now carries a z_tolerance (uniform tolerance mechanism) instead of the removed pixel_scale/viewing_angle_deg fields. ReconstructionResult.pointing_angle_deg becomes horizontal/vertical fields to match the beam's two independent tilt degrees of freedom. Co-Authored-By: Claude Sonnet 5 <noreply@anthropic.com>
98 lines
3.1 KiB
Python
98 lines
3.1 KiB
Python
import numpy as np
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import pytest
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from he11lib.data import MeasurementPlane, ReconstructionResult, validate_planes
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def test_measurement_plane_stores_fields():
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flux = np.ones((4, 4))
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plane = MeasurementPlane(flux=flux, z=0.3)
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assert plane.z == 0.3
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assert np.array_equal(plane.flux, flux)
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assert plane.z_tolerance == 0.0
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assert plane.label is None
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def test_measurement_plane_stores_optional_fields():
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flux = np.ones((4, 4))
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plane = MeasurementPlane(flux=flux, z=0.4, z_tolerance=0.01, label="plane_40cm")
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assert plane.z_tolerance == 0.01
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assert plane.label == "plane_40cm"
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def test_measurement_plane_rejects_non_2d_flux():
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with pytest.raises(ValueError, match="2D"):
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MeasurementPlane(flux=np.ones((4, 4, 3)), z=0.3)
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def test_measurement_plane_rejects_non_positive_z():
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with pytest.raises(ValueError, match="positive"):
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MeasurementPlane(flux=np.ones((4, 4)), z=0.0)
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with pytest.raises(ValueError, match="positive"):
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MeasurementPlane(flux=np.ones((4, 4)), z=-0.1)
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def test_measurement_plane_rejects_negative_z_tolerance():
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with pytest.raises(ValueError, match="z_tolerance"):
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MeasurementPlane(flux=np.ones((4, 4)), z=0.3, z_tolerance=-0.01)
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def test_validate_planes_rejects_fewer_than_three():
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planes = [
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MeasurementPlane(flux=np.ones((4, 4)), z=0.3),
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MeasurementPlane(flux=np.ones((4, 4)), z=0.4),
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]
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with pytest.raises(ValueError, match="[Aa]t least 3"):
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validate_planes(planes)
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def test_validate_planes_rejects_mismatched_shapes():
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planes = [
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MeasurementPlane(flux=np.ones((4, 4)), z=0.3),
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MeasurementPlane(flux=np.ones((5, 5)), z=0.4),
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MeasurementPlane(flux=np.ones((4, 4)), z=0.5),
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]
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with pytest.raises(ValueError, match="same shape"):
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validate_planes(planes)
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def test_validate_planes_rejects_duplicate_z():
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planes = [
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MeasurementPlane(flux=np.ones((4, 4)), z=0.3),
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MeasurementPlane(flux=np.ones((4, 4)), z=0.3),
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MeasurementPlane(flux=np.ones((4, 4)), z=0.5),
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]
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with pytest.raises(ValueError, match="distinct"):
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validate_planes(planes)
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def test_validate_planes_accepts_valid_list():
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planes = [
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MeasurementPlane(flux=np.ones((4, 4)), z=0.3),
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MeasurementPlane(flux=np.ones((4, 4)), z=0.4),
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MeasurementPlane(flux=np.ones((4, 4)), z=0.5),
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]
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validate_planes(planes) # should not raise
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def test_reconstruction_result_stores_fields():
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result = ReconstructionResult(
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purity={(0, 0): (1.0, 0.0)},
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reconstructed_field=np.ones((4, 4), dtype=complex),
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centers=[(0.0, 0.0)],
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pointing_angle_horizontal_deg=0.1,
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pointing_angle_vertical_deg=-0.2,
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geometry={"focal_length_px": 2000.0},
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residuals=[np.zeros((4, 4))],
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coefficient_uncertainty={(0, 0): 0.01},
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used_phase_retrieval=False,
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)
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assert result.purity[(0, 0)] == (1.0, 0.0)
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assert result.pointing_angle_horizontal_deg == 0.1
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assert result.pointing_angle_vertical_deg == -0.2
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assert result.used_phase_retrieval is False
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