File: test_halo.py

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# -*- coding: utf-8 -*-
"""This module tests Halo spinners.
"""
import io
import os
import re
import sys
import time
import unittest

try:
    from cStringIO import StringIO
except ImportError:
    from io import StringIO

from spinners.spinners import Spinners

from halo import Halo
from halo._utils import get_terminal_columns, is_supported
from tests._utils import strip_ansi, find_colors, encode_utf_8_text, decode_utf_8_text

from termcolor import COLORS

if sys.version_info.major == 2:
    get_coded_text = encode_utf_8_text
else:
    get_coded_text = decode_utf_8_text

if is_supported():
    frames = [get_coded_text(frame) for frame in Spinners['dots'].value['frames']]
    default_spinner = Spinners['dots'].value
else:
    frames = [get_coded_text(frame) for frame in Spinners['line'].value['frames']]
    default_spinner = Spinners['line'].value


class SpecificException(Exception):
    """A unique exc class we know only our tests would raise"""


class TestHalo(unittest.TestCase):
    """Test Halo enum for attribute values.
    """
    TEST_FOLDER = os.path.dirname(os.path.abspath(__file__))

    def setUp(self):
        """Set up things before beginning of each test.
        """
        self._stream_file = os.path.join(self.TEST_FOLDER, 'test.txt')
        self._stream = io.open(self._stream_file, 'w+')
        self._stream_no_tty = StringIO()

    def _get_test_output(self, no_ansi=True):
        """Clean the output from stream and return it in list form.

        Returns
        -------
        list
            Clean output from stream
        """
        self._stream.seek(0)
        data = self._stream.readlines()
        output = {}
        output_text = []
        output_colors = []

        for line in data:
            clean_line = strip_ansi(line.strip('\n')) if no_ansi else line.strip('\n')
            if clean_line != '':
                output_text.append(get_coded_text(clean_line))

            colors_found = find_colors(line.strip('\n'))
            if colors_found:
                tmp = []
                for color in colors_found:
                    tmp.append(re.sub(r'[^0-9]', '', color, flags=re.I))
                output_colors.append(tmp)

        output['text'] = output_text
        output['colors'] = output_colors

        return output

    def test_basic_spinner(self):
        """Test the basic of basic spinners.
        """
        spinner = Halo(text='foo', spinner='dots', stream=self._stream)

        spinner.start()
        time.sleep(1)
        spinner.stop()
        output = self._get_test_output()['text']

        self.assertEqual(output[0], '{} foo'.format(frames[0]))
        self.assertEqual(output[1], '{} foo'.format(frames[1]))
        self.assertEqual(output[2], '{} foo'.format(frames[2]))

    def test_text_spinner_color(self):
        """Test basic spinner with available colors color (both spinner and text)
        """
        for color, color_int in COLORS.items():
            self._stream_file = os.path.join(self.TEST_FOLDER, 'test.txt')
            self._stream = io.open(self._stream_file, 'w+')

            spinner = Halo(
                text='foo',
                text_color=color,
                color=color,
                spinner='dots',
                stream=self._stream
            )

            spinner.start()
            time.sleep(1)
            spinner.stop()
            output = self._get_test_output()['colors']

            # check if spinner colors match
            self.assertEqual(color_int, int(output[0][0]))
            self.assertEqual(color_int, int(output[1][0]))
            self.assertEqual(color_int, int(output[2][0]))

            # check if text colors match
            self.assertEqual(color_int, int(output[0][1]))
            self.assertEqual(color_int, int(output[1][1]))
            self.assertEqual(color_int, int(output[2][1]))

    def test_spinner_getter(self):
        instance = Halo()
        if is_supported():
            default_spinner_value = "dots"
        else:
            default_spinner_value = "line"

        instance.spinner = default_spinner_value
        self.assertEqual(default_spinner, instance.spinner)

        instance.spinner = "This_spinner_do_not_exist"
        self.assertEqual(default_spinner, instance.spinner)

        instance.spinner = -123
        self.assertEqual(default_spinner, instance.spinner)

    def test_text_stripping(self):
        """Test the text being stripped before output.
        """
        spinner = Halo(text='foo\n', spinner='dots', stream=self._stream)

        spinner.start()
        time.sleep(1)
        spinner.succeed('foo\n')
        output = self._get_test_output()['text']

        self.assertEqual(output[0], '{} foo'.format(frames[0]))
        self.assertEqual(output[1], '{} foo'.format(frames[1]))
        self.assertEqual(output[2], '{} foo'.format(frames[2]))

        pattern = re.compile(r'(✔|v) foo', re.UNICODE)

        self.assertRegexpMatches(output[-1], pattern)

    def test_text_ellipsing(self):
        """Test the text gets ellipsed if it's too long
        """
        text = 'This is a text that it is too long. In fact, it exceeds the eighty column standard ' \
               'terminal width, which forces the text frame renderer to add an ellipse at the end of the ' \
               'text. ' * 6
        spinner = Halo(text=text, spinner='dots', stream=self._stream)

        spinner.start()
        time.sleep(1)
        spinner.succeed('End!')
        output = self._get_test_output()['text']

        terminal_width = get_terminal_columns()

        # -6 of the ' (...)' ellipsis, -2 of the spinner and space
        self.assertEqual(output[0], '{} {} (...)'.format(frames[0], text[:terminal_width - 6 - 2]))
        self.assertEqual(output[1], '{} {} (...)'.format(frames[1], text[:terminal_width - 6 - 2]))
        self.assertEqual(output[2], '{} {} (...)'.format(frames[2], text[:terminal_width - 6 - 2]))

        pattern = re.compile(r'(✔|v) End!', re.UNICODE)

        self.assertRegexpMatches(output[-1], pattern)

    def test_text_animation(self):
        """Test the text gets animated when it is too long
        """
        text = 'This is a text that it is too long. In fact, it exceeds the eighty column standard ' \
               'terminal width, which forces the text frame renderer to add an ellipse at the end of the ' \
               'text. ' * 6
        spinner = Halo(text=text, spinner='dots', stream=self._stream, animation='marquee')

        spinner.start()
        time.sleep(1)
        spinner.succeed('End!')
        output = self._get_test_output()['text']

        terminal_width = get_terminal_columns()

        self.assertEqual(output[0], '{} {}'.format(frames[0], text[:terminal_width - 2]))
        self.assertEqual(output[1], '{} {}'.format(frames[1], text[1:terminal_width - 1]))
        self.assertEqual(output[2], '{} {}'.format(frames[2], text[2:terminal_width]))

        pattern = re.compile(r'(✔|v) End!', re.UNICODE)

        self.assertRegexpMatches(output[-1], pattern)

    def test_context_manager(self):
        """Test the basic of basic spinners used through the with statement.
        """
        with Halo(text='foo', spinner='dots', stream=self._stream):
            time.sleep(1)
        output = self._get_test_output()['text']

        self.assertEqual(output[0], '{} foo'.format(frames[0]))
        self.assertEqual(output[1], '{} foo'.format(frames[1]))
        self.assertEqual(output[2], '{} foo'.format(frames[2]))

    def test_context_manager_exceptions(self):
        """Test Halo context manager allows exceptions to bubble up
        """
        with self.assertRaises(SpecificException):
            with Halo(text='foo', spinner='dots', stream=self._stream):
                raise SpecificException

    def test_decorator_spinner(self):
        """Test basic usage of spinners with the decorator syntax."""

        @Halo(text="foo", spinner="dots", stream=self._stream)
        def decorated_function():
            time.sleep(1)

        decorated_function()
        output = self._get_test_output()['text']
        self.assertEqual(output[0], '{} foo'.format(frames[0]))
        self.assertEqual(output[1], '{} foo'.format(frames[1]))
        self.assertEqual(output[2], '{} foo'.format(frames[2]))

    def test_decorator_exceptions(self):
        """Test Halo decorator allows exceptions to bubble up"""

        @Halo(text="foo", spinner="dots", stream=self._stream)
        def decorated_function():
            raise SpecificException

        with self.assertRaises(SpecificException):
            decorated_function()

    def test_initial_title_spinner(self):
        """Test Halo with initial title.
        """
        spinner = Halo('bar', stream=self._stream)

        spinner.start()
        time.sleep(1)
        spinner.stop()
        output = self._get_test_output()['text']

        self.assertEqual(output[0], '{} bar'.format(frames[0]))
        self.assertEqual(output[1], '{} bar'.format(frames[1]))
        self.assertEqual(output[2], '{} bar'.format(frames[2]))

    def test_id_not_created_before_start(self):
        """Test Spinner ID not created before start.
        """
        spinner = Halo(stream=self._stream)
        self.assertEqual(spinner.spinner_id, None)

    def test_ignore_multiple_start_calls(self):
        """Test ignoring of multiple start calls.
        """
        spinner = Halo(stream=self._stream)
        spinner.start()
        spinner_id = spinner.spinner_id
        spinner.start()
        self.assertEqual(spinner.spinner_id, spinner_id)
        spinner.stop()

    def test_chaining_start(self):
        """Test chaining start with constructor
        """
        spinner = Halo(stream=self._stream).start()
        spinner_id = spinner.spinner_id
        self.assertIsNotNone(spinner_id)
        spinner.stop()

    def test_succeed(self):
        """Test succeed method
        """
        spinner = Halo(stream=self._stream)
        spinner.start('foo')
        spinner.succeed('foo')

        output = self._get_test_output()['text']
        pattern = re.compile(r'(✔|v) foo', re.UNICODE)

        self.assertRegexpMatches(output[-1], pattern)
        spinner.stop()

    def test_succeed_with_new_text(self):
        """Test succeed method with new text
        """
        spinner = Halo(stream=self._stream)
        spinner.start('foo')
        spinner.succeed('bar')

        output = self._get_test_output()['text']
        pattern = re.compile(r'(✔|v) bar', re.UNICODE)

        self.assertRegexpMatches(output[-1], pattern)
        spinner.stop()

    def test_info(self):
        """Test info method
        """
        spinner = Halo(stream=self._stream)
        spinner.start('foo')
        spinner.info()

        output = self._get_test_output()['text']
        pattern = re.compile(r'(ℹ|¡) foo', re.UNICODE)

        self.assertRegexpMatches(output[-1], pattern)
        spinner.stop()

    def test_fail(self):
        """Test fail method
        """
        spinner = Halo(stream=self._stream)
        spinner.start('foo')
        spinner.fail()

        output = self._get_test_output()['text']
        pattern = re.compile(r'(✖|×) foo', re.UNICODE)

        self.assertRegexpMatches(output[-1], pattern)
        spinner.stop()

    def test_warning(self):
        """Test warn method
        """
        spinner = Halo(stream=self._stream)
        spinner.start('foo')
        spinner.warn('Warning!')

        output = self._get_test_output()['text']
        pattern = re.compile(r'(⚠|!!) Warning!', re.UNICODE)

        self.assertRegexpMatches(output[-1], pattern)
        spinner.stop()

    def test_spinner_getters_setters(self):
        """Test spinner getters and setters.
        """
        spinner = Halo()
        self.assertEqual(spinner.text, '')
        self.assertIsNone(spinner.text_color, None)
        self.assertEqual(spinner.color, 'cyan')
        self.assertIsNone(spinner.spinner_id)

        spinner.spinner = 'dots12'
        spinner.text = 'bar'
        spinner.text_color = 'red'
        spinner.color = 'red'

        self.assertEqual(spinner.text, 'bar')
        self.assertEqual(spinner.text_color, 'red')
        self.assertEqual(spinner.color, 'red')

        if is_supported():
            self.assertEqual(spinner.spinner, Spinners['dots12'].value)
        else:
            self.assertEqual(spinner.spinner, default_spinner)

        spinner.spinner = 'dots11'
        if is_supported():
            self.assertEqual(spinner.spinner, Spinners['dots11'].value)
        else:
            self.assertEqual(spinner.spinner, default_spinner)

        spinner.spinner = 'foo_bar'
        self.assertEqual(spinner.spinner, default_spinner)

        # Color is None
        spinner.text_color = None
        spinner.color = None
        spinner.start()
        spinner.stop()

        self.assertIsNone(spinner.text_color)
        self.assertIsNone(spinner.color)

    def test_unavailable_spinner_defaults(self):
        """Test unavailable spinner defaults.
        """
        spinner = Halo('dot')

        self.assertEqual(spinner.text, 'dot')
        self.assertEqual(spinner.spinner, default_spinner)

    def test_if_enabled(self):
        """Test if spinner is enabled
        """
        spinner = Halo(text='foo', enabled=False, stream=self._stream)
        spinner.start()
        time.sleep(1)
        spinner.fail()

        output = self._get_test_output()['text']
        self.assertEqual(len(output), 0)
        self.assertEqual(output, [])

    def test_writing_disabled_on_closed_stream(self):
        """Test no I/O is performed on closed streams
        """
        # BytesIO supports the writable() method, while StringIO does not, in
        # some versions of Python. We want to check whether the stream is
        # writable (e.g. for file streams which can be open but not writable),
        # but only if the stream supports it — otherwise we assume
        # open == writable.
        for io_class in (io.StringIO, io.BytesIO):
            stream = io_class()
            stream.close()

            # sanity checks
            self.assertTrue(stream.closed)
            self.assertRaises(ValueError, stream.isatty)
            self.assertRaises(ValueError, stream.write, u'')

            try:
                spinner = Halo(text='foo', stream=stream)
                spinner.start()
                time.sleep(0.5)
                spinner.stop()
            except ValueError as e:
                self.fail('Attempted to write to a closed stream: {}'.format(e))

    def test_closing_stream_before_stopping(self):
        """Test no I/O is performed on streams closed before stop is called
        """
        stream = io.StringIO()
        spinner = Halo(text='foo', stream=stream)
        spinner.start()
        time.sleep(0.5)

        # no exception raised after closing the stream means test was successful
        try:
            stream.close()

            time.sleep(0.5)
            spinner.stop()
        except ValueError as e:
            self.fail('Attempted to write to a closed stream: {}'.format(e))

    def test_closing_stream_before_persistent(self):
        """Test no I/O is performed on streams closed before stop_and_persist is called
        """
        stream = io.StringIO()
        spinner = Halo(text='foo', stream=stream)
        spinner.start()
        time.sleep(0.5)

        # no exception raised after closing the stream means test was successful
        try:
            stream.close()

            time.sleep(0.5)
            spinner.stop_and_persist('done')
        except ValueError as e:
            self.fail('Attempted to write to a closed stream: {}'.format(e))

    def test_setting_enabled_property(self):
        """Test if spinner stops writing when enabled property set to False
        """
        spinner = Halo(text='foo', stream=self._stream)
        spinner.start()
        time.sleep(0.5)

        spinner.enabled = False
        bytes_written = self._stream.tell()
        time.sleep(0.5)
        spinner.stop()

        total_bytes_written = self._stream.tell()
        self.assertEqual(total_bytes_written, bytes_written)

    def test_spinner_interval_default(self):
        """Test proper assignment of the default interval value.
        """
        spinner = Halo()
        self.assertEqual(spinner._interval, default_spinner['interval'])

    def test_spinner_interval_argument(self):
        """Test proper assignment of the interval value from the constructor argument.
        """
        spinner = Halo(interval=123)
        self.assertEqual(spinner._interval, 123)

    def test_spinner_interval_dict(self):
        """Test proper assignment of the interval value from a dictionary.
        """
        spinner = Halo(spinner={'interval': 321, 'frames': ['+', '-']})
        self.assertEqual(spinner._interval, 321)

    def test_invalid_placement(self):
        """Test invalid placement of spinner.
        """

        with self.assertRaises(ValueError):
            Halo(placement='')
            Halo(placement='foo')
            Halo(placement=None)

        spinner = Halo(placement='left')
        with self.assertRaises(ValueError):
            spinner.placement = ''
            spinner.placement = 'foo'
            spinner.placement = None

    def test_default_placement(self):
        """Test default placement of spinner.
        """

        spinner = Halo()
        self.assertEqual(spinner.placement, 'left')

    def test_right_placement(self):
        """Test right placement of spinner.
        """
        spinner = Halo(text='foo', placement='right', stream=self._stream)
        spinner.start()
        time.sleep(1)

        output = self._get_test_output()['text']
        (text, _) = output[-1].split(' ')
        self.assertEqual(text, 'foo')

        spinner.succeed()
        output = self._get_test_output()['text']
        (text, symbol) = output[-1].split(' ')
        pattern = re.compile(r"(✔|v)", re.UNICODE)

        self.assertEqual(text, 'foo')
        self.assertRegexpMatches(symbol, pattern)
        spinner.stop()

    def test_bounce_animation(self):
        def filler_text(n_chars):
            return "_" * n_chars

        terminal_width = get_terminal_columns()

        text = "{}abc".format(filler_text(terminal_width))
        expected_frames_without_appended_spinner = [
            "{}".format(filler_text(terminal_width - 2)),
            "{}".format(filler_text(terminal_width - 2)),
            "{}".format(filler_text(terminal_width - 2)),
            "{}a".format(filler_text(terminal_width - 3)),
            "{}ab".format(filler_text(terminal_width - 4)),
            "{}abc".format(filler_text(terminal_width - 5)),
            "{}abc".format(filler_text(terminal_width - 5)),
            "{}ab".format(filler_text(terminal_width - 4)),
            "{}a".format(filler_text(terminal_width - 3)),
            "{}".format(filler_text(terminal_width - 2)),
            "{}".format(filler_text(terminal_width - 2)),
            "{}".format(filler_text(terminal_width - 2)),
        ]
        # Prepend the actual spinner
        expected_frames = [
            "{} {}".format(frames[idx % frames.__len__()], frame)
            for idx, frame in enumerate(expected_frames_without_appended_spinner)
        ]
        spinner = Halo(text, animation="bounce", stream=self._stream)
        spinner.start()
        # Sleep a full bounce cycle
        time.sleep(1.2)
        spinner.stop()
        output = self._get_test_output()['text']

        zipped_expected_and_actual_frame = zip(expected_frames, output)
        for multiple_frames in zipped_expected_and_actual_frame:
            expected_frame, actual_frame = multiple_frames
            self.assertEquals(expected_frame, actual_frame)

    def test_animation_setter(self):
        spinner = Halo("Asdf")
        spinner.animation = "bounce"
        self.assertEquals("bounce", spinner.animation)
        spinner.animation = "marquee"
        self.assertEquals("marquee", spinner.animation)

    def test_spinner_color(self):
        """Test ANSI escape characters are present
        """

        for color, color_int in COLORS.items():
            self._stream = io.open(self._stream_file, 'w+')  # reset stream
            spinner = Halo(color=color, stream=self._stream)
            spinner.start()
            spinner.stop()

            output = self._get_test_output(no_ansi=False)
            output_merged = [arr for c in output['colors'] for arr in c]

            self.assertEquals(str(color_int) in output_merged, True)

    def test_redirect_stdout(self):
        """Test redirect stdout
        """
        out = self._stream
        try:
            self._stream = self._stream_no_tty
            spinner = Halo(text='foo', spinner='dots', stream=self._stream)

            spinner.start()
            time.sleep(1)
            spinner.stop()
            output = self._get_test_output()['text']
        finally:
            self._stream = out

        self.assertIn('foo', output[0])

    def tearDown(self):
        pass


if __name__ == '__main__':
    SUITE = unittest.TestLoader().loadTestsFromTestCase(TestHalo)
    unittest.TextTestRunner(verbosity=2).run(SUITE)