Return obstruction
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@ -9,7 +9,7 @@ class IRadiant(ABC):
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in the beam.
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in the beam.
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"""
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"""
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@abstractmethod
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@abstractmethod
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def calcSignal(self) -> Tuple[SpectralQty, str]:
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def calcSignal(self) -> Tuple[SpectralQty, str, float]:
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"""
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"""
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Calculate the signal coming from the component
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Calculate the signal coming from the component
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@ -19,6 +19,8 @@ class IRadiant(ABC):
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The emitted, reflected or transmitted signal
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The emitted, reflected or transmitted signal
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size : str
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size : str
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The size of the target.
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The size of the target.
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obstruction : float
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The obstruction factor.
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"""
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"""
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pass
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pass
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@ -52,7 +52,7 @@ class AOpticalComponent(IRadiant):
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self.__obstructor_temp = obstructor_temp
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self.__obstructor_temp = obstructor_temp
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self.__obstructor_emissivity = obstructor_emissivity
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self.__obstructor_emissivity = obstructor_emissivity
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def calcSignal(self) -> Tuple[SpectralQty, str]:
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def calcSignal(self) -> Tuple[SpectralQty, str, float]:
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"""
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"""
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Calculate the spectral flux density of the target's signal
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Calculate the spectral flux density of the target's signal
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@ -62,12 +62,15 @@ class AOpticalComponent(IRadiant):
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The spectral flux density of the target's signal
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The spectral flux density of the target's signal
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size : str
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size : str
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The size of the target.
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The size of the target.
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obstruction : float
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The obstruction factor.
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"""
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"""
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signal, size = self.__parent.calcSignal()
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signal, size, obstruction = self.__parent.calcSignal()
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info("Calculating signal for class '" + self.__class__.__name__ + "'.")
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info("Calculating signal for class '" + self.__class__.__name__ + "'.")
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signal = self._propagate(signal) * (1 - self.__obstruction)
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signal = self._propagate(signal) * (1 - self.__obstruction)
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obstruction = obstruction + self.__obstruction
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debug(signal)
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debug(signal)
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return signal, size
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return signal, size, obstruction
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def calcBackground(self) -> SpectralQty:
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def calcBackground(self) -> SpectralQty:
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"""
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"""
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@ -46,7 +46,7 @@ class ATarget(IRadiant):
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debug(background)
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debug(background)
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return background
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return background
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def calcSignal(self) -> Tuple[SpectralQty, str]:
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def calcSignal(self) -> Tuple[SpectralQty, str, float]:
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"""
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"""
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Calculate the spectral flux density of the target's signal
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Calculate the spectral flux density of the target's signal
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@ -56,10 +56,12 @@ class ATarget(IRadiant):
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The spectral flux density of the target's signal
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The spectral flux density of the target's signal
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size : str
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size : str
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The size of the target.
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The size of the target.
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obstruction : float
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The obstruction factor.
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"""
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"""
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info("Calculating Signal for class '" + self.__class__.__name__ + "'.")
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info("Calculating Signal for class '" + self.__class__.__name__ + "'.")
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debug(self.__sfd)
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debug(self.__sfd)
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return self.__sfd, self.__size
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return self.__sfd, self.__size, 0.0
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@staticmethod
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@staticmethod
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@abstractmethod
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@abstractmethod
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@ -13,7 +13,7 @@ class TestBlackBodyTarget(TestCase):
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def test_calcSignal(self):
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def test_calcSignal(self):
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signal = SpectralQty(np.arange(400, 800, 100) << u.nm, np.array([4.91164694e-15, 5.61732017e-15, 5.22403225e-15,
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signal = SpectralQty(np.arange(400, 800, 100) << u.nm, np.array([4.91164694e-15, 5.61732017e-15, 5.22403225e-15,
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4.43017583e-15]) << u.W / (u.m ** 2 * u.nm))
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4.43017583e-15]) << u.W / (u.m ** 2 * u.nm))
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self.assertEqual(self.target.calcSignal(), (signal, "Point"))
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self.assertEqual(self.target.calcSignal(), (signal, "Point", 0.0))
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def test_calcBackground(self):
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def test_calcBackground(self):
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noise = SpectralQty(np.arange(400, 800, 100) << u.nm, np.repeat(0, 4) << u.W / (u.m ** 2 * u.nm * u.sr))
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noise = SpectralQty(np.arange(400, 800, 100) << u.nm, np.repeat(0, 4) << u.W / (u.m ** 2 * u.nm * u.sr))
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@ -12,7 +12,7 @@ class TestFileTarget(TestCase):
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def test_calcSignal(self):
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def test_calcSignal(self):
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signal = SpectralQty(np.arange(200, 210, 1) << u.nm,
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signal = SpectralQty(np.arange(200, 210, 1) << u.nm,
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np.arange(1.1e-15, 2.0e-15, 1e-16) << u.W / (u.m ** 2 * u.nm))
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np.arange(1.1e-15, 2.0e-15, 1e-16) << u.W / (u.m ** 2 * u.nm))
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self.assertEqual(self.target.calcSignal(), (signal, "Point"))
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self.assertEqual(self.target.calcSignal(), (signal, "Point", 0.0))
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def test_calcBackground(self):
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def test_calcBackground(self):
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noise = SpectralQty(np.arange(200, 210, 1) << u.nm,
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noise = SpectralQty(np.arange(200, 210, 1) << u.nm,
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