Esempio n. 1
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    def test_aligned_stream(self):
        """
        Test the AlignedSEMStream
        """
        # Use fake ccd in order to have just one spot
        ccd = mock.FakeCCD(self.fake_img)

        # first try using the metadata correction
        st = stream.AlignedSEMStream("sem-md", self.sed, self.sed.data, self.ebeam,
                                     ccd, self.stage, self.focus, shiftebeam=stream.MTD_MD_UPD)

        # we don't really care about the SEM image, so the faster the better
        self.ebeam.dwellTime.value = self.ebeam.dwellTime.range[0]

        # start one image acquisition (so it should do the calibration)
        f = acq.acquire([st])
        received, _ = f.result()
        self.assertTrue(received, "No image received after 30 s")

        # Check the correction metadata is there
        md = self.sed.getMetadata()
        self.assertIn(model.MD_POS_COR, md)

        # Check the position of the image is correct
        pos_cor = md[model.MD_POS_COR]
        pos_dict = self.stage.position.value
        pos = (pos_dict["x"], pos_dict["y"])
        exp_pos = tuple(p - c for p, c in zip(pos, pos_cor))
        imd = received[0].metadata
        self.assertEqual(exp_pos, imd[model.MD_POS])

        # Check the calibration doesn't happen again on a second acquisition
        bad_cor = (-1, -1) # stupid impossible value
        self.sed.updateMetadata({model.MD_POS_COR: bad_cor})
        f = acq.acquire([st])
        received, _ = f.result()
        self.assertTrue(received, "No image received after 10 s")

        # if calibration has happened (=bad), it has changed the metadata
        md = self.sed.getMetadata()
        self.assertEqual(bad_cor, md[model.MD_POS_COR],
                            "metadata has been updated while it shouldn't have")

        # Check calibration happens again after a stage move
        f = self.stage.moveRel({"x": 100e-6})
        f.result() # make sure the move is over
        time.sleep(0.1) # make sure the stream had time to detect position has changed

        f = acq.acquire([st])
        received, _ = f.result()
        self.assertTrue(received, "No image received after 30 s")

        # if calibration has happened (=good), it has changed the metadata
        md = self.sed.getMetadata()
        self.assertNotEqual(bad_cor, md[model.MD_POS_COR],
                            "metadata hasn't been updated while it should have")

        ccd.terminate()
Esempio n. 2
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 def test_light_already_on(self):
     """
     Test when chamber light is already on
     """
     bl = self.light
     bl.power.value[0] = 10
     # bright image - light is already on
     ccd = mock.FakeCCD(self.img_ccd_lon)
     f = turnOnLight(bl, ccd)
     time.sleep(1)
     self.assertTrue(f.done())
     f.result()
Esempio n. 3
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    def test_slit_cancel(self):
        """
        Test cancelling does cancel (relatively quickly)
        """
        bl = self.light
        ccd = mock.FakeCCD(self.img_ccd_loff)
        f = turnOnLight(bl, ccd)
        time.sleep(1)
        cancelled = f.cancel()

        self.assertTrue(cancelled)
        self.assertTrue(f.cancelled())
        with self.assertRaises(CancelledError):
            f.result(5)
Esempio n. 4
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    def test_slit_off_on_ccd(self):
        """
        Test from dark slit image to bright slit image (gray)
        """
        bl = self.light
        ccd = mock.FakeCCD(self.img_ccd_loff)
        f = turnOnLight(bl, ccd)
        time.sleep(1)
        self.assertFalse(f.done())

        # simulate light turning on
        ccd.fake_img = self.img_ccd_lon
        time.sleep(1)
        self.assertTrue(f.done())
        self.assertFalse(f.cancelled())
        f.result()
Esempio n. 5
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    def test_slit_off_on_spccd(self):
        """
        Test from dark slit image to bright slit image (gray)
        """
        bl = self.light
        ccd = mock.FakeCCD(self.img_spccd_loff)
        f = turnOnLight(bl, ccd)
        time.sleep(1)  # > exposureTime (=0.1 s)
        self.assertFalse(f.done())

        logging.debug("changing image")
        # simulate light turning on
        ccd.fake_img = self.img_spccd_lon
        time.sleep(1)
        self.assertTrue(f.done())
        f.result()
Esempio n. 6
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    def test_slit_timeout(self):
        """
        Test Timeout
        """
        bl = self.light
        ccd = mock.FakeCCD(self.img_ccd_loff)
        f = turnOnLight(bl, ccd)
        # no change in the image
        time.sleep(1)
        self.assertFalse(f.done())
        with self.assertRaises(futures.TimeoutError):
            f.result(timeout=5)
        self.assertFalse(f.done())
        self.assertFalse(f.cancelled())

        f.cancel()
        self.assertTrue(f.done())
        self.assertTrue(f.cancelled())
Esempio n. 7
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    def test_1pix_off_on(self):
        """
        Test from dark image to bright image of 1 pixel
        """
        bl = self.light
        img_dark = numpy.ones((1, 1), dtype=numpy.uint16)  # type: ndarray
        da_dark = model.DataArray(img_dark)
        ccd = mock.FakeCCD(da_dark)
        f = turnOnLight(bl, ccd)
        time.sleep(1)
        self.assertFalse(f.done())

        # simulate light turning on
        img_bright = numpy.array([10], dtype=numpy.uint16)
        br_bright = model.DataArray(img_bright)
        ccd.fake_img = br_bright
        time.sleep(1)
        self.assertTrue(f.done())
        f.result()
Esempio n. 8
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    def test_no_detection_of_change(self):
        """
        Test when we get a new dark image with a bright spot but no change is detected
        """
        bl = self.light
        ccd = mock.FakeCCD(self.img_ccd_loff)
        f = turnOnLight(bl, ccd)
        time.sleep(1)
        self.assertFalse(f.done())

        spoted_img = self.img_ccd_loff
        spoted_img[42:47, 93] = 65000
        with self.assertRaises(futures.TimeoutError):
            f.result(timeout=5)
        self.assertFalse(f.done())
        self.assertFalse(f.cancelled())

        f.cancel()
        self.assertTrue(f.done())
        self.assertTrue(f.cancelled())