Example #1
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        def check_raise(data, exception, regexp):
            """ Make sure that methods.load_coordinates() raises 'exception'
            when a file containing 'data' is parsed. 'regexp' is the regular
            expression that must be matched by the string representation of
            the raised exception"""

            with methods.tempinput(data) as path:
                with self.assertRaisesRegexp(exception, regexp):
                    list(methods.load_coordinates(path))
Example #2
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        def check_raise(data, exception, regexp):
            """ Make sure that methods.load_coordinates() raises 'exception'
            when a file containing 'data' is parsed. 'regexp' is the regular
            expression that must be matched by the string representation of
            the raised exception"""

            with methods.tempinput(data) as path:
                with self.assertRaisesRegexp(exception, regexp):
                    list(methods.load_coordinates(path))
Example #3
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    def test_load_custom_filters(self):

        section_header = "[%s]" % passband.CUSTOM_SECTION

        # Name and description of user-defined filters
        custom1 = "R-EROS", "R (EROS-2 survey)"
        custom2 = "NO", "Blank Filter"
        custom_filters = [custom1, custom2]

        data = '\n'.join([section_header] +
                         ["%s = %s" % x for x in custom_filters])

        with methods.tempinput(data) as path:
            loaded = list(passband.load_custom_filters(path))
            self.assertEqual(len(custom_filters), len(loaded))
            for input, output in zip(custom_filters, loaded):
                # For example, ('R-EROS', 'R (EROS-2 survey)')
                self.assertEqual(input[0], output[0])
                self.assertEqual(input[1], output[1])

        def assert_returns_nothing(path):
            """ Assert that Passband.load_custom_filters() does not return
            anything when the 'path' configuration file is parsed"""
            self.assertEqual([], list(passband.load_custom_filters(path)))

        # Does not return anything if:
        # (1) The configuration file file does not exist
        with methods.tempinput('') as path:
            pass
        self.assertFalse(os.path.exists(path))
        assert_returns_nothing(path)

        # (2) Does not have the CUSTOM_SECTION section
        data = ""
        with methods.tempinput(data) as path:
            assert_returns_nothing(path)

        # (3) The CUSTOM_SECTION section is empty
        data = section_header
        with methods.tempinput(data) as path:
            assert_returns_nothing(path)
Example #4
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    def test_load_custom_filters(self):

        section_header = "[%s]" % passband.CUSTOM_SECTION

        # Name and description of user-defined filters
        custom1 = "R-EROS", "R (EROS-2 survey)"
        custom2 = "NO", "Blank Filter"
        custom_filters = [custom1, custom2]

        data = '\n'.join([section_header] +
                         ["%s = %s" % x for x in custom_filters])

        with methods.tempinput(data) as path:
            loaded = list(passband.load_custom_filters(path))
            self.assertEqual(len(custom_filters), len(loaded))
            for input, output in zip(custom_filters, loaded):
                # For example, ('R-EROS', 'R (EROS-2 survey)')
                self.assertEqual(input[0], output[0])
                self.assertEqual(input[1], output[1])

        def assert_returns_nothing(path):
            """ Assert that Passband.load_custom_filters() does not return
            anything when the 'path' configuration file is parsed"""
            self.assertEqual([], list(passband.load_custom_filters(path)))

        # Does not return anything if:
        # (1) The configuration file file does not exist
        with methods.tempinput('') as path:
            pass
        self.assertFalse(os.path.exists(path))
        assert_returns_nothing(path)

        # (2) Does not have the CUSTOM_SECTION section
        data = ""
        with methods.tempinput(data) as path:
            assert_returns_nothing(path)

        # (3) The CUSTOM_SECTION section is empty
        data = section_header
        with methods.tempinput(data) as path:
            assert_returns_nothing(path)
Example #5
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    def test_load_coordinates_scientific_notation_with_propper_motion(self):

        data = '7.9720694373e-05 44.6352243008 [0.00123] [0.0000432]'
        with methods.tempinput(data) as path:
            coordinates = methods.load_coordinates(path)
            coords_list = list(coordinates)
            self.assertEqual(len(coords_list), 1)
            ra, dec, pm_ra, pm_dec = coords_list[0]
            self.assertAlmostEqual(ra, 7.9720694373e-05)
            self.assertAlmostEqual(dec, 44.6352243008)
            self.assertAlmostEqual(pm_ra, 0.00123)
            self.assertAlmostEqual(pm_dec, 4.32e-05)
Example #6
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    def test_load_coordinates_scientific_notation(self):

        # For some datasets that generate coords so close to zero that they end up in scientific notation

        data = '7.9720694373e-05 44.6352243008'
        with methods.tempinput(data) as path:
            coordinates = methods.load_coordinates(path)
            coords_list = list(coordinates)
            self.assertEqual(len(coords_list), 1)
            ra, dec, pm_ra, pm_dec = coords_list[0]
            self.assertAlmostEqual(ra, 7.9720694373e-05)
            self.assertAlmostEqual(dec, 44.6352243008)
Example #7
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    def test_load_coordinates(self):

        for _ in xrange(NITERS):

            # Randomly choose some of the SIMBAD astronomical objects and write
            # them to a temporary file, formatting their coordinates and proper
            # motions in four columns (or just two, if the proper motions are
            # not known) and inserting a random number of separators before,
            # between and after the columns and brackets. Then make sure that
            # methods.load_coordinates() returns the same astronomical objects,
            # in the same order and with the same coordinates that we wrote.

            n = random.randint(*self.NCOORDS)
            objects = random.sample(self.COORDINATES.values(), n)
            data = self.get_coords_data(objects)
            with methods.tempinput(data) as path:
                coordinates = methods.load_coordinates(path)
                for coords, expected in zip(coordinates, objects):
                    self.assertEqual(coords, expected)
Example #8
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    def test_load_coordinates(self):

        for _ in xrange(NITERS):

            # Randomly choose some of the SIMBAD astronomical objects and write
            # them to a temporary file, formatting their coordinates and proper
            # motions in four columns (or just two, if the proper motions are
            # not known) and inserting a random number of separators before,
            # between and after the columns and brackets. Then make sure that
            # methods.load_coordinates() returns the same astronomical objects,
            # in the same order and with the same coordinates that we wrote.

            n = random.randint(*self.NCOORDS)
            objects = random.sample(self.COORDINATES.values(), n)
            data = self.get_coords_data(objects)
            with methods.tempinput(data) as path:
                coordinates = methods.load_coordinates(path)
                for coords, expected in zip(coordinates, objects):
                    self.assertEqual(coords, expected)
Example #9
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    def test_load_coordinates_empty_lines_and_comments(self):

        # The same as test_load_coordinates(), but randomly inserting a few
        # empty and comment lines, as well as inline comments, all of which
        # must be ignored by load_coordinates().

        for _ in xrange(NITERS):
            n = random.randint(*self.NCOORDS)
            objects = random.sample(self.COORDINATES.values(), n)
            data = self.get_coords_data(objects)

            lines = data.split('\n')

            # Randomly insert inline comments
            for index in range(len(lines)):
                if random.random() < self.COMMENT_PROB:
                    sep = self.get_seps(0)
                    comment = self.get_comment()
                    lines[index] += sep + comment

            # Randomly insert empty lines
            for _ in range(random.randint(*self.NEMPTY)):
                index = random.randint(0, len(lines))
                empty = self.get_seps(0)
                lines.insert(index, empty)

            # Randomly insert comment lines
            for _ in range(random.randint(*self.NCOMMENTS)):
                index = random.randint(0, len(lines))
                sep = self.get_seps(0)
                comment = self.get_comment()
                lines.insert(index, sep + comment)

            data = '\n'.join(lines)

            with methods.tempinput(data) as path:
                coordinates = methods.load_coordinates(path)
                for coords, expected in zip(coordinates, objects):
                    self.assertEqual(coords, expected)
Example #10
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    def test_load_coordinates_empty_lines_and_comments(self):

        # The same as test_load_coordinates(), but randomly inserting a few
        # empty and comment lines, as well as inline comments, all of which
        # must be ignored by load_coordinates().

        for _ in xrange(NITERS):
            n = random.randint(*self.NCOORDS)
            objects = random.sample(self.COORDINATES.values(), n)
            data = self.get_coords_data(objects)

            lines = data.split('\n')

            # Randomly insert inline comments
            for index in range(len(lines)):
                if random.random() < self.COMMENT_PROB:
                    sep = self.get_seps(0)
                    comment = self.get_comment()
                    lines[index] += sep + comment

            # Randomly insert empty lines
            for _ in range(random.randint(*self.NEMPTY)):
                index = random.randint(0, len(lines))
                empty = self.get_seps(0)
                lines.insert(index, empty)

            # Randomly insert comment lines
            for _ in range(random.randint(*self.NCOMMENTS)):
                index = random.randint(0, len(lines))
                sep = self.get_seps(0)
                comment = self.get_comment()
                lines.insert(index, sep + comment)

            data = '\n'.join(lines)

            with methods.tempinput(data) as path:
                coordinates = methods.load_coordinates(path)
                for coords, expected in zip(coordinates, objects):
                    self.assertEqual(coords, expected)
Example #11
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 def test_load_coordinates_empty_file(self):
     # If the file is empty, nothing is returned
     with methods.tempinput('') as path:
         self.assertEqual([], list(methods.load_coordinates(path)))
Example #12
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 def test_load_coordinates_empty_file(self):
     # If the file is empty, nothing is returned
     with methods.tempinput('') as path:
         self.assertEqual([], list(methods.load_coordinates(path)))