Exemplo n.º 1
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 def test_find_best_mode(self):
     outputs = [
         XrandrConnection("LVDS1", Display()),
         XrandrConnection("DP1", Display(["1920x1080"], edid="office"))
     ]
     best = self.matcher.find_best(self.profiles, outputs)
     self.assertEqual(self.profiles[1], best)
Exemplo n.º 2
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    def test_find_best_ambiguous(self):
        """
        Test matching for similarly scored profiles
        """
        edid = "office"
        edidhash = profile.md5(edid)

        connected_outputs = [
            XrandrConnection("LVDS1", Display()),
            XrandrConnection("DP1", Display(["1920x1080"], edid=edid))
        ]

        profile_outputs = [
            Output("LVDS1", Viewport('1366x768'), True),
            Output("DP1", Viewport('1920x1080'))
        ]

        p1 = Profile("p1", profile_outputs, {
            "LVDS1": Rule(),
            "DP1": Rule(edidhash)
        })
        p2 = Profile("p2", profile_outputs, {
            "LVDS1": Rule(),
            "DP1": Rule(edidhash)
        })

        best = self.matcher.find_best([p1, p2], connected_outputs)
        self.assertEqual(p1, best)
Exemplo n.º 3
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 def test_find_best_no_match(self):
     outputs = [
         XrandrConnection("LVDS1", Display()),
         XrandrConnection("DP1", Display(["1280x1024"], edid="guest"))
     ]
     best = self.matcher.find_best(self.profiles, outputs)
     self.assertIsNone(best)
Exemplo n.º 4
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    def test_should_match_profiles_and_list_descending(self):
        # given
        edid = "office"
        edidhash = hash(edid)
        profiles = [
            profile("match4", {"LVDS1": Rule(), "DP1": Rule()}),
            profile("match1", {"LVDS1": Rule(), "DP1": Rule(edidhash)}),
            profile("match3", {"LVDS1": Rule(), "DP1": Rule(supports="1920x1080")}),
            profile("match2", {"LVDS1": Rule(), "DP1": Rule(prefers="1920x1080")}),
            profile("match5", {"LVDS1": Rule()}),
            profile("missing_output", {"LVDS1": Rule(), "DP1": Rule(), "HDMI1": Rule()}),
            profile("no_rules")
        ]
        outputs = [
            XrandrConnection("LVDS1", Display()),
            XrandrConnection("DP1", Display(["1920x1080"], "1920x1080", edid=edid))
        ]

        # when
        matches = self.matcher.match(profiles, outputs)

        # then
        self.assertEqual(5, len(matches))
        self.assertEqual("match1", matches[0][1].name)
        self.assertEqual("match2", matches[1][1].name)
        self.assertEqual("match3", matches[2][1].name)
        self.assertEqual("match4", matches[3][1].name)
        self.assertEqual("match5", matches[4][1].name)
Exemplo n.º 5
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 def test_find_best_default2(self):
     outputs = [
         XrandrConnection("LVDS1", Display()),
         XrandrConnection("DP1", Display(["1280x1024"], edid="guest"))
     ]
     best = self.matcher.find_best(self.profiles, outputs)
     self.assertEqual(self.profiles[0], best)
Exemplo n.º 6
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    def test_profile_from_xrandr(self):
        xc = [XrandrConnection("LVDS1", Display(), Viewport("1366x768"), False),
              XrandrConnection("DP1", Display(), Viewport("1920x1080", pos="1366x0"), True),
              XrandrConnection("HDMI1", None, Viewport("1366x768"), False)]

        p = self.manager.profile_from_xrandr(xc)

        self.assertEqual("profile", p.name)
        self.assertEqual(2, len(p.outputs))
Exemplo n.º 7
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 def test_find_best_prefers_over_supports(self):
     outputs = [
         XrandrConnection("LVDS1", Display()),
         XrandrConnection(
             "DP1",
             Display(["1920x1080", "1920x1200"], "1920x1200",
                     edid="office"))
     ]
     best = self.matcher.find_best(self.profiles, outputs)
     self.assertEqual(self.profiles[2], best)
Exemplo n.º 8
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    def _parse_xrandr_connection(self, item_lines: list):
        """
        Creates XrandrConnection from lines returned by xrandr --query.
        Example:
        LVDS1 connected primary 1366x768+0+312 (normal left inverted right x axis y axis) 277mm x 156mm
           1366x768      60.02*+
           1024x768      60.00
        """
        connection_info = item_lines[0]

        name, status, state = connection_info.split(' ', 2)

        if status != 'connected':
            # We are not connected, do not parse the rest.
            return XrandrConnection(name)

        # We are connected parse connected display.
        display = self._parse_display(item_lines[1:])

        if not display.is_on():
            # inactive output
            return XrandrConnection(name, display)

        parsed = self.OUTPUT_DETAILS_REGEX.match(state)
        if parsed is None:
            raise ParseException(name, status, state)

        primary = parsed.group('primary') is not None
        rotate = parsed.group('rotate')
        panning = parsed.group('panning')
        geometry = parsed.group('geometry')
        size, pos = self._parse_geometry(geometry)

        is_rotated = rotate in ['left', 'right']
        if is_rotated:
            size = 'x'.join(size.split('x')[::-1])

        scale = '1x1'
        if size != display.mode:
            dw, dh = map(lambda s: int(s), display.mode.split('x'))
            vw, vh = map(lambda s: int(s), size.split('x'))
            sw, sh = vw / dw, vh / dh
            if is_rotated:
                sw, sh = sh, sw
            scale = "{}x{}".format(sw, sh)

        viewport = Viewport(size, pos, rotate, panning, scale)

        return XrandrConnection(name, display, viewport, primary)
Exemplo n.º 9
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    def test_should_pick_first_profile_if_same_score(self):
        # given
        edid = "office"
        edidhash = hash(edid)
        profiles = [
            profile("p1", {"LVDS1": Rule(), "DP1": Rule(edidhash)}),
            profile("p2", {"LVDS1": Rule(), "DP1": Rule(edidhash)})
        ]
        outputs = [
            XrandrConnection("LVDS1", Display()),
            XrandrConnection("DP1", Display(["1920x1080"], edid=edid))
        ]

        # when
        best = self.matcher.find_best(profiles, outputs)

        # then
        self.assertEqual(profiles[0], best)
Exemplo n.º 10
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    def test_compose_mode_args_exact_line(self):
        xrandr = Xrandr()
        xrandr.EXECUTABLE = "stub"

        outputs = [Output("LVDS1", mode='1366x768')]

        p = Profile("default", outputs, primary="LVDS1")

        xrandr_connections = [
            XrandrConnection("LVDS1"),
            XrandrConnection("HDMI1")
        ]

        command = xrandr._compose_mode_args(p, xrandr_connections)
        self.assertListEqual([
            '--output', 'LVDS1', '--mode', '1366x768', '--pos', '0x0',
            '--rotate', 'normal', '--panning', '0x0', '--scale', '1x1',
            '--primary', '--output', 'HDMI1', '--off'
        ], command)
Exemplo n.º 11
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 def test_priority(self):
     outputs_default = [
         XrandrConnection("LVDS1", Display()),
     ]
     outputs_office = [
         XrandrConnection("LVDS1", Display()),
         XrandrConnection("HDMI1", Display(["1920x1080"], edid="office"))
     ]
     profiles = [
         Profile("default", [Output("LVDS1", "1366x768")],
                 {"LVDS1": Rule()},
                 priority=50),
         Profile("office", [Output("HDMI1", "1920x1080")],
                 {"HDMI1": Rule()},
                 priority=100)  # default priority
     ]
     best_default = self.matcher.find_best(profiles, outputs_default)
     best_office = self.matcher.find_best(profiles, outputs_office)
     self.assertEqual(profiles[0], best_default)
     self.assertEqual(profiles[1], best_office)
Exemplo n.º 12
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    def test_compose_mode_args(self):
        xrandr = Xrandr(":0", None)
        xrandr.EXECUTABLE = "stub"

        outputs = {
            "LVDS1":
            Output(mode='1366x768'),
            "DP1":
            Output(mode='1920x1080',
                   pos='1366x0',
                   scale='1.5x1.5',
                   panning='1920x1080'),
            "VGA1":
            Output(mode='800x600', pos='0x768')
        }

        p = Profile("default", outputs, primary="LVDS1")

        xrandr_connections = [
            XrandrConnection("HDMI1"),
            XrandrConnection("HDMI2")
        ]

        command = xrandr._compose_mode_args(p, xrandr_connections)

        num_of_outputs = len(outputs) + len(xrandr_connections)

        self.assertEqual(num_of_outputs, command.count(xrandr.OUTPUT_KEY))
        self.assertEqual(len(outputs), command.count(xrandr.POS_KEY))
        self.assertEqual(len(outputs), command.count(xrandr.MODE_KEY))
        self.assertEqual(len(outputs), command.count(xrandr.PANNING_KEY))
        self.assertEqual(len(outputs), command.count(xrandr.ROTATE_KEY))
        self.assertEqual(len(outputs), command.count(xrandr.SCALE_KEY))
        self.assertEqual(len(xrandr_connections),
                         command.count(xrandr.OFF_KEY))
        self.assertEqual(1, command.count(xrandr.PRIMARY_KEY))
        self.assertEqual(1, command.count("LVDS1"))
        self.assertEqual(1, command.count("DP1"))
        self.assertEqual(1, command.count("VGA1"))
        self.assertEqual(1, command.count("HDMI1"))
        self.assertEqual(1, command.count("HDMI2"))
Exemplo n.º 13
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    def test_should_pick_profile_with_higher_prio_if_same_score(self):
        # given
        expected = profile("highprio", {"LVDS1": Rule()}, prio=999)
        profiles = [profile("default", {"LVDS1": Rule()}), expected]
        outputs = [
            XrandrConnection("LVDS1", Display()),
        ]

        # when
        best = self.matcher.find_best(profiles, outputs)

        # then
        self.assertEqual(expected, best)
Exemplo n.º 14
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    def test_should_not_match_profile_without_rules(self):
        # given
        profiles = [
            profile("no_rules1"),
            profile("no_rules2"),
            profile("no_rules3")
        ]
        outputs = [
            XrandrConnection("LVDS1", Display(preferred_mode="1920x1080"))
        ]

        # when
        best = self.matcher.find_best(profiles, outputs)

        # then
        self.assertIsNone(best)
Exemplo n.º 15
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    def test_should_prefer_rule_prefers_over_supports(self):
        # given
        expected = profile("with_prefers", {"LVDS1": Rule(prefers="1920x1080")})
        profiles = [
            expected,
            profile("with_supports", {"LVDS1": Rule(supports="1920x1080")})
        ]
        outputs = [
            XrandrConnection("LVDS1", Display(["1920x1080"], "1920x1080"))
        ]

        # when
        best = self.matcher.find_best(profiles, outputs)

        # then
        self.assertEqual(expected, best)
Exemplo n.º 16
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    def test_should_match_profile_with_empty_rule(self):
        # given
        expected = profile("should_match", {"LVDS1": Rule()})
        profiles = [
            profile("different_output_in_rule", {"DP1": Rule(prefers="1920x1080")}),
            profile("no_rules"),
            expected
        ]
        outputs = [
            XrandrConnection("LVDS1", Display(preferred_mode="1920x1080"))
        ]

        # when
        best = self.matcher.find_best(profiles, outputs)

        # then
        self.assertEqual(expected, best)
Exemplo n.º 17
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    def test_should_prefer_edid_over_mode(self):
        # given
        edid = "some_edid"
        expected = profile("with_edid", {"LVDS1": Rule(hash(edid))})
        profiles = [
            expected,
            profile("with_supported_mode", {"LVDS1": Rule(supports="1920x1080")}),
            profile("with_preferred_mode", {"LVDS1": Rule(prefers="1920x1080")})
        ]
        outputs = [
            XrandrConnection("LVDS1", Display(["1920x1080"], "1920x1080", edid=edid))
        ]

        # when
        best = self.matcher.find_best(profiles, outputs)

        # then
        self.assertEqual(expected, best)
Exemplo n.º 18
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 def test_find_best_default(self):
     outputs = [XrandrConnection("LVDS1", Display())]
     best = self.matcher.find_best(self.profiles, outputs)
     self.assertEqual(self.profiles[0], best)