virtual_profiles = [
# (name, description, callback)
("common", "Clone all connected outputs at the largest common resolution", None),
+ ("clone-largest", "Clone all connected outputs with the largest resolution (scaled down if necessary)", None),
("horizontal", "Stack all connected outputs horizontally at their largest resolution", None),
("vertical", "Stack all connected outputs vertically at their largest resolution", None),
]
The following virtual configurations are available:
""".strip()
+
class AutorandrException(Exception):
def __init__(self, message, original_exception=None, report_bug=False):
self.message = message
self.file_name = None
def __str__(self):
- retval = [ self.message ]
+ retval = [self.message]
if self.line:
retval.append(" (line %d%s)" % (self.line, ("; %s" % self.file_name) if self.file_name else ""))
if self.original_exception:
if self.report_bug:
retval.append("\nThis appears to be a bug. Please help improving autorandr by reporting it upstream:"
"\nhttps://github.com/phillipberndt/autorandr/issues"
- "\nPlease attach the output of `xrandr --verbose` to your bug report if appropriate.")
+ "\nPlease attach the output of `xrandr --verbose` to your bug report if appropriate.")
return "".join(retval)
+
class XrandrOutput(object):
"Represents an XRandR output"
if xrandr_version() >= Version("1.2"):
options.update(self.XRANDR_12_DEFAULTS)
options.update(self.options)
- return { a: b for a, b in options.items() if a not in self.ignored_options }
+ return {a: b for a, b in options.items() if a not in self.ignored_options}
@property
def filtered_options(self):
"Return a dictionary of options without ignored options"
- return { a: b for a, b in self.options.items() if a not in self.ignored_options }
+ return {a: b for a, b in self.options.items() if a not in self.ignored_options}
@property
def option_vector(self):
@property
def option_string(self):
"Return the command line parameters in the configuration file format"
- return "\n".join([ " ".join(option) if option[1] else option[0] for option in chain((("output", self.output),), sorted(self.filtered_options.items()))])
+ return "\n".join([" ".join(option) if option[1] else option[0] for option in chain((("output", self.output),), sorted(self.filtered_options.items()))])
@property
def sort_key(self):
def remove_default_option_values(self):
"Remove values from the options dictionary that are superflous"
if "off" in self.options and len(self.options.keys()) > 1:
- self.options = { "off": None }
+ self.options = {"off": None}
return
for option, default_value in self.XRANDR_DEFAULTS.items():
if option in self.options and self.options[option] == default_value:
xrandr_output = xrandr_output.replace("\r\n", "\n")
match_object = re.search(XrandrOutput.XRANDR_OUTPUT_REGEXP, xrandr_output)
except:
- raise AutorandrException("Parsing XRandR output failed, there is an error in the regular expression.", report_bug = True)
+ raise AutorandrException("Parsing XRandR output failed, there is an error in the regular expression.", report_bug=True)
if not match_object:
debug = debug_regexp(XrandrOutput.XRANDR_OUTPUT_REGEXP, xrandr_output)
- raise AutorandrException("Parsing XRandR output failed, the regular expression did not match: %s" % debug, report_bug = True)
+ raise AutorandrException("Parsing XRandR output failed, the regular expression did not match: %s" % debug, report_bug=True)
remainder = xrandr_output[len(match_object.group(0)):]
if remainder:
raise AutorandrException(("Parsing XRandR output failed, %d bytes left unmatched after regular expression, "
- "starting at byte %d with ..'%s'.") % (len(remainder), len(match_object.group(0)), remainder[:10]), report_bug=True)
+ "starting at byte %d with ..'%s'.") % (len(remainder), len(match_object.group(0)), remainder[:10]), report_bug=True)
match = match_object.groupdict()
modes = []
if match["modes"]:
- modes = [ x.groupdict() for x in re.finditer(XrandrOutput.XRANDR_OUTPUT_MODES_REGEXP, match["modes"]) if x.group("name") ]
+ modes = [x.groupdict() for x in re.finditer(XrandrOutput.XRANDR_OUTPUT_MODES_REGEXP, match["modes"]) if x.group("name")]
if not modes:
raise AutorandrException("Parsing XRandR output failed, couldn't find any display modes", report_bug=True)
options["reflect"] = "xy"
options["pos"] = "%sx%s" % (match["x"], match["y"])
if match["panning"]:
- panning = [ match["panning"] ]
+ panning = [match["panning"]]
if match["tracking"]:
- panning += [ "/", match["tracking"] ]
+ panning += ["/", match["tracking"]]
if match["border"]:
- panning += [ "/", match["border"] ]
+ panning += ["/", match["border"]]
options["panning"] = "".join(panning)
if match["transform"]:
transformation = ",".join(match["transform"].strip().split())
# xrandr prints different values in --verbose than it accepts as a parameter value for --gamma
# Also, it is not able to work with non-standard gamma ramps. Finally, it auto-corrects 0 to 1,
# so we approximate by 1e-10.
- gamma = ":".join([ str(max(1e-10, round(1./float(x), 3))) for x in gamma.split(":") ])
+ gamma = ":".join([str(max(1e-10, round(1. / float(x), 3))) for x in gamma.split(":")])
options["gamma"] = gamma
if match["rate"]:
options["rate"] = match["rate"]
edid = edid_map[options["output"]]
else:
# This fuzzy matching is for legacy autorandr that used sysfs output names
- fuzzy_edid_map = [ re.sub("(card[0-9]+|-)", "", x) for x in edid_map.keys() ]
+ fuzzy_edid_map = [re.sub("(card[0-9]+|-)", "", x) for x in edid_map.keys()]
fuzzy_output = re.sub("(card[0-9]+|-)", "", options["output"])
if fuzzy_output in fuzzy_edid_map:
edid = edid_map[list(edid_map.keys())[fuzzy_edid_map.index(fuzzy_output)]]
diffs.append("Option --%s %sis `%s' in the new configuration" % (name, "(= `%s') " % self.options[name] if self.options[name] else "", other.options[name]))
return diffs
+
def xrandr_version():
"Return the version of XRandR that this system uses"
if getattr(xrandr_version, "version", False) is False:
return xrandr_version.version
+
def debug_regexp(pattern, string):
"Use the partial matching functionality of the regex module to display debug info on a non-matching regular expression"
try:
import regex
- bounds = ( 0, len(string) )
+ bounds = (0, len(string))
while bounds[0] != bounds[1]:
half = int((bounds[0] + bounds[1]) / 2)
if half == bounds[0]:
bounds = (half, bounds[1]) if regex.search(pattern, string[:half], partial=True) else (bounds[0], half - 1)
partial_length = bounds[0]
return ("Regular expression matched until position "
- "%d, ..'%s', and did not match from '%s'.." % (partial_length, string[max(0, partial_length-20):partial_length],
- string[partial_length:partial_length+10]))
+ "%d, ..'%s', and did not match from '%s'.." % (partial_length, string[max(0, partial_length - 20):partial_length],
+ string[partial_length:partial_length + 10]))
except ImportError:
pass
return "Debug information would be available if the `regex' module was installed."
+
def parse_xrandr_output():
"Parse the output of `xrandr --verbose' into a list of outputs"
xrandr_output = os.popen("xrandr -q --verbose").read()
modes = OrderedDict()
for i in range(1, len(split_xrandr_output), 2):
output_name = split_xrandr_output[i].split()[0]
- output, output_modes = XrandrOutput.from_xrandr_output("".join(split_xrandr_output[i:i+2]))
+ output, output_modes = XrandrOutput.from_xrandr_output("".join(split_xrandr_output[i:i + 2]))
outputs[output_name] = output
if output_modes:
modes[output_name] = output_modes
return outputs, modes
+
def load_profiles(profile_path):
"Load the stored profiles"
profiles = {}
for profile in os.listdir(profile_path):
config_name = os.path.join(profile_path, profile, "config")
- setup_name = os.path.join(profile_path, profile, "setup")
+ setup_name = os.path.join(profile_path, profile, "setup")
if not os.path.isfile(config_name) or not os.path.isfile(setup_name):
continue
- edids = dict([ x.split() for x in (y.strip() for y in open(setup_name).readlines()) if x and x[0] != "#" ])
+ edids = dict([x.split() for x in (y.strip() for y in open(setup_name).readlines()) if x and x[0] != "#"])
config = {}
buffer = []
for line in chain(open(config_name).readlines(), ["output"]):
if line[:6] == "output" and buffer:
config[buffer[0].strip().split()[-1]] = XrandrOutput.from_config_file(edids, "".join(buffer))
- buffer = [ line ]
+ buffer = [line]
else:
buffer.append(line)
if config[output_name].edid is None:
del config[output_name]
- profiles[profile] = { "config": config, "path": os.path.join(profile_path, profile), "config-mtime": os.stat(config_name).st_mtime }
+ profiles[profile] = {"config": config, "path": os.path.join(profile_path, profile), "config-mtime": os.stat(config_name).st_mtime}
return profiles
+
def get_symlinks(profile_path):
"Load all symlinks from a directory"
return symlinks
+
def find_profiles(current_config, profiles):
"Find profiles matching the currently connected outputs"
detected_profiles = []
if name not in current_config or not output.edid_equals(current_config[name]):
matches = False
break
- if not matches or any(( name not in config.keys() for name in current_config.keys() if current_config[name].edid )):
+ if not matches or any((name not in config.keys() for name in current_config.keys() if current_config[name].edid)):
continue
if matches:
detected_profiles.append(profile_name)
return detected_profiles
+
def profile_blocked(profile_path, meta_information=None):
"""Check if a profile is blocked.
"""
return not exec_scripts(profile_path, "block", meta_information)
+
def output_configuration(configuration, config):
"Write a configuration file"
outputs = sorted(configuration.keys(), key=lambda x: configuration[x].sort_key)
for output in outputs:
print(configuration[output].option_string, file=config)
+
def output_setup(configuration, setup):
"Write a setup (fingerprint) file"
outputs = sorted(configuration.keys())
if configuration[output].edid:
print(output, configuration[output].edid, file=setup)
+
def save_configuration(profile_path, configuration):
"Save a configuration into a profile"
if not os.path.isdir(profile_path):
with open(os.path.join(profile_path, "setup"), "w") as setup:
output_setup(configuration, setup)
+
def update_mtime(filename):
"Update a file's mtime"
try:
except:
return False
+
def call_and_retry(*args, **kwargs):
"""Wrapper around subprocess.call that retries failed calls.
retval = subprocess.call(*args, **kwargs)
return retval
+
def apply_configuration(new_configuration, current_configuration, dry_run=False):
"Apply a configuration"
outputs = sorted(new_configuration.keys(), key=lambda x: new_configuration[x].sort_key)
if dry_run:
- base_argv = [ "echo", "xrandr" ]
+ base_argv = ["echo", "xrandr"]
else:
- base_argv = [ "xrandr" ]
+ base_argv = ["xrandr"]
# There are several xrandr / driver bugs we need to take care of here:
# - We cannot enable more than two screens at the same time
else:
try:
option_index = option_vector.index("--%s" % option)
- if option_vector[option_index+1] == XrandrOutput.XRANDR_DEFAULTS[option]:
- option_vector = option_vector[:option_index] + option_vector[option_index+2:]
+ if option_vector[option_index + 1] == XrandrOutput.XRANDR_DEFAULTS[option]:
+ option_vector = option_vector[:option_index] + option_vector[option_index + 2:]
except ValueError:
pass
# Enable the remaining outputs in pairs of two operations
operations = disable_outputs + enable_outputs
for index in range(0, len(operations), 2):
- argv = base_argv + list(chain.from_iterable(operations[index:index+2]))
+ argv = base_argv + list(chain.from_iterable(operations[index:index + 2]))
if call_and_retry(argv, dry_run=dry_run) != 0:
raise AutorandrException("Command failed: %s" % " ".join(argv))
+
def is_equal_configuration(source_configuration, target_configuration):
"Check if all outputs from target are already configured correctly in source"
for output in target_configuration.keys():
return False
return True
+
def add_unused_outputs(source_configuration, target_configuration):
"Add outputs that are missing in target to target, in 'off' state"
for output_name, output in source_configuration.items():
if output_name not in target_configuration:
- target_configuration[output_name] = XrandrOutput(output_name, output.edid, { "off": None })
+ target_configuration[output_name] = XrandrOutput(output_name, output.edid, {"off": None})
+
def remove_irrelevant_outputs(source_configuration, target_configuration):
"Remove outputs from target that ought to be 'off' and already are"
if "off" in output.options and output_name in target_configuration and "off" in target_configuration[output_name].options:
del target_configuration[output_name]
+
def generate_virtual_profile(configuration, modes, profile_name):
"Generate one of the virtual profiles"
configuration = copy.deepcopy(configuration)
if profile_name == "common":
- common_resolution = [ set(( ( mode["width"], mode["height"] ) for mode in output_modes )) for output, output_modes in modes.items() if configuration[output].edid ]
+ common_resolution = [set(((mode["width"], mode["height"]) for mode in output_modes)) for output, output_modes in modes.items() if configuration[output].edid]
common_resolution = reduce(lambda a, b: a & b, common_resolution[1:], common_resolution[0])
- common_resolution = sorted(common_resolution, key=lambda a: int(a[0])*int(a[1]))
+ common_resolution = sorted(common_resolution, key=lambda a: int(a[0]) * int(a[1]))
if common_resolution:
for output in configuration:
configuration[output].options = {}
if output in modes and configuration[output].edid:
- configuration[output].options["mode"] = [ x["name"] for x in sorted(modes[output], key=lambda x: 0 if x["preferred"] else 1) if x["width"] == common_resolution[-1][0] and x["height"] == common_resolution[-1][1] ][0]
+ configuration[output].options["mode"] = [x["name"] for x in sorted(modes[output], key=lambda x: 0 if x["preferred"] else 1) if x["width"] == common_resolution[-1][0] and x["height"] == common_resolution[-1][1]][0]
configuration[output].options["pos"] = "0x0"
else:
configuration[output].options["off"] = None
for output in configuration:
configuration[output].options = {}
if output in modes and configuration[output].edid:
- mode = sorted(modes[output], key=lambda a: int(a["width"])*int(a["height"]) + (10**6 if a["preferred"] else 0))[-1]
+ mode = sorted(modes[output], key=lambda a: int(a["width"]) * int(a["height"]) + (10**6 if a["preferred"] else 0))[-1]
configuration[output].options["mode"] = mode["name"]
configuration[output].options["rate"] = mode["rate"]
configuration[output].options["pos"] = pos_specifier % shift
shift += int(mode[shift_index])
else:
configuration[output].options["off"] = None
+ elif profile_name == "clone-largest":
+ biggest_resolution = sorted([output_modes[0] for output, output_modes in modes.items()], key=lambda x: int(x["width"]) * int(x["height"]), reverse=True)[0]
+ for output in configuration:
+ configuration[output].options = {}
+ if output in modes and configuration[output].edid:
+ mode = sorted(modes[output], key=lambda a: int(a["width"]) * int(a["height"]) + (10**6 if a["preferred"] else 0))[-1]
+ configuration[output].options["mode"] = mode["name"]
+ configuration[output].options["rate"] = mode["rate"]
+ configuration[output].options["pos"] = "0x0"
+ scale = max(float(biggest_resolution["width"]) / float(mode["width"]), float(biggest_resolution["height"]) / float(mode["height"]))
+ mov_x = (float(mode["width"]) * scale - float(biggest_resolution["width"])) / -2
+ mov_y = (float(mode["height"]) * scale - float(biggest_resolution["height"])) / -2
+ configuration[output].options["transform"] = "{},0,{},0,{},{},0,0,1".format(scale, mov_x, scale, mov_y)
+ else:
+ configuration[output].options["off"] = None
return configuration
+
def print_profile_differences(one, another):
"Print the differences between two profiles for debugging"
if one == another:
else:
for line in one[output].verbose_diff(another[output]):
print("| [Output %s] %s" % (output, line), file=sys.stderr)
- print ("\\-", file=sys.stderr)
+ print("\\-", file=sys.stderr)
+
def exit_help():
"Print help and exit"
print(help_text)
for profile in virtual_profiles:
- print(" %-10s %s" % profile[:2])
+ name, description = profile[:2]
+ description = [description]
+ max_width = 78 - 18
+ while len(description[0]) > max_width + 1:
+ left_over = description[0][max_width:]
+ description[0] = description[0][:max_width] + "-"
+ description.insert(1, " %-15s %s" % ("", left_over))
+ description = "\n".join(description)
+ print(" %-15s %s" % (name, description))
sys.exit(0)
+
def exec_scripts(profile_path, script_name, meta_information=None):
""""Run userscripts
all_ok = True
if meta_information:
env = os.environ.copy()
- env.update({ "AUTORANDR_%s" % str(key).upper(): str(value) for (key, value) in meta_information.items() })
+ env.update({"AUTORANDR_%s" % str(key).upper(): str(value) for (key, value) in meta_information.items()})
else:
env = os.environ.copy()
return all_ok
+
def dispatch_call_to_sessions(argv):
"""Invoke autorandr for each open local X11 session with the given options.
The function iterates over all processes not owned by root and checks
- whether they have a DISPLAY variable set. It strips the screen from any
- variable it finds (i.e. :0.0 becomes :0) and checks whether this display
- has been handled already. If it has not, it forks, changes uid/gid to
- the user owning the process, reuses the process's environment and runs
- autorandr with the parameters from argv.
+ whether they have DISPLAY and XAUTHORITY variables set. It strips the
+ screen from any variable it finds (i.e. :0.0 becomes :0) and checks whether
+ this display has been handled already. If it has not, it forks, changes
+ uid/gid to the user owning the process, reuses the process's environment
+ and runs autorandr with the parameters from argv.
This function requires root permissions. It only works for X11 servers that
have at least one non-root process running. It is susceptible for attacks
which won't work. Since no other harm than prevention of automated
execution of autorandr can be done this way, the assumption is that in this
situation, the local administrator will handle the situation."""
+
X11_displays_done = set()
autorandr_binary = os.path.abspath(argv[0])
+ backup_candidates = {}
+
+ def fork_child_autorandr(pwent, process_environ):
+ print("Running autorandr as %s for display %s" % (pwent.pw_name, process_environ["DISPLAY"]))
+ child_pid = os.fork()
+ if child_pid == 0:
+ # This will throw an exception if any of the privilege changes fails,
+ # so it should be safe. Also, note that since the environment
+ # is taken from a process owned by the user, reusing it should
+ # not leak any information.
+ os.setgroups([])
+ os.setresgid(pwent.pw_gid, pwent.pw_gid, pwent.pw_gid)
+ os.setresuid(pwent.pw_uid, pwent.pw_uid, pwent.pw_uid)
+ os.chdir(pwent.pw_dir)
+ os.environ.clear()
+ os.environ.update(process_environ)
+ os.execl(autorandr_binary, autorandr_binary, *argv[1:])
+ os.exit(1)
+ os.waitpid(child_pid, 0)
for directory in os.listdir("/proc"):
directory = os.path.join("/proc/", directory)
if name == "DISPLAY" and "." in value:
value = value[:value.find(".")]
process_environ[name] = value
- display = process_environ["DISPLAY"] if "DISPLAY" in process_environ else None
+
+ if "DISPLAY" not in process_environ:
+ # Cannot work with this environment, skip.
+ continue
# To allow scripts to detect batch invocation (especially useful for predetect)
process_environ["AUTORANDR_BATCH_PID"] = str(os.getpid())
+ process_environ["UID"] = str(uid)
+
+ display = process_environ["DISPLAY"]
- if display and display not in X11_displays_done:
+ if "XAUTHORITY" not in process_environ:
+ # It's very likely that we cannot work with this environment either,
+ # but keep it as a backup just in case we don't find anything else.
+ backup_candidates[display] = process_environ
+ continue
+
+ if display not in X11_displays_done:
try:
pwent = pwd.getpwuid(uid)
except KeyError:
# User has no pwd entry
continue
- print("Running autorandr as %s for display %s" % (pwent.pw_name, display))
- child_pid = os.fork()
- if child_pid == 0:
- # This will throw an exception if any of the privilege changes fails,
- # so it should be safe. Also, note that since the environment
- # is taken from a process owned by the user, reusing it should
- # not leak any information.
- os.setgroups([])
- os.setresgid(pwent.pw_gid, pwent.pw_gid, pwent.pw_gid)
- os.setresuid(pwent.pw_uid, pwent.pw_uid, pwent.pw_uid)
- os.chdir(pwent.pw_dir)
- os.environ.clear()
- os.environ.update(process_environ)
- os.execl(autorandr_binary, autorandr_binary, *argv[1:])
- os.exit(1)
- os.waitpid(child_pid, 0)
+ fork_child_autorandr(pwent, process_environ)
+ X11_displays_done.add(display)
+ # Run autorandr for any users/displays which didn't have a process with
+ # XAUTHORITY set.
+ for display, process_environ in backup_candidates.items():
+ if display not in X11_displays_done:
+ try:
+ pwent = pwd.getpwuid(int(process_environ["UID"]))
+ except KeyError:
+ # User has no pwd entry
+ continue
+
+ fork_child_autorandr(pwent, process_environ)
X11_displays_done.add(display)
+
def main(argv):
try:
- options = dict(getopt.getopt(argv[1:], "s:r:l:d:cfh", [ "batch", "dry-run", "change", "default=", "save=", "remove=", "load=", "force", "fingerprint", "config", "debug", "skip-options=", "help" ])[0])
+ opts, args = getopt.getopt(argv[1:], "s:r:l:d:cfh", ["batch", "dry-run", "change", "default=", "save=", "remove=", "load=", "force", "fingerprint", "config", "debug", "skip-options=", "help"])
except getopt.GetoptError as e:
print("Failed to parse options: {0}.\n"
"Use --help to get usage information.".format(str(e)),
file=sys.stderr)
sys.exit(posix.EX_USAGE)
+ options = dict(opts)
+
if "-h" in options or "--help" in options:
exit_help()
# Batch mode
if "--batch" in options:
if ("DISPLAY" not in os.environ or not os.environ["DISPLAY"]) and os.getuid() == 0:
- dispatch_call_to_sessions([ x for x in argv if x != "--batch" ])
+ dispatch_call_to_sessions([x for x in argv if x != "--batch"])
else:
print("--batch mode can only be used by root and if $DISPLAY is unset")
return
+ if "AUTORANDR_BATCH_PID" in os.environ:
+ user = pwd.getpwuid(os.getuid())
+ user = user.pw_name if user else "#%d" % os.getuid()
+ print("autorandr running as user %s (started from batch instance)" % user)
profiles = {}
profile_symlinks = {}
except Exception as e:
raise AutorandrException("Failed to load profiles", e)
- profile_symlinks = { k: v for k, v in profile_symlinks.items() if v in (x[0] for x in virtual_profiles) or v in profiles }
+ profile_symlinks = {k: v for k, v in profile_symlinks.items() if v in (x[0] for x in virtual_profiles) or v in profiles}
exec_scripts(None, "predetect")
config, modes = parse_xrandr_output()
sys.exit(0)
if "--skip-options" in options:
- skip_options = [ y[2:] if y[:2] == "--" else y for y in ( x.strip() for x in options["--skip-options"].split(",") ) ]
+ skip_options = [y[2:] if y[:2] == "--" else y for y in (x.strip() for x in options["--skip-options"].split(","))]
for profile in profiles.values():
for output in profile["config"].values():
output.set_ignored_options(skip_options)
if "-s" in options:
options["--save"] = options["-s"]
if "--save" in options:
- if options["--save"] in ( x[0] for x in virtual_profiles ):
+ if options["--save"] in (x[0] for x in virtual_profiles):
raise AutorandrException("Cannot save current configuration as profile '%s':\nThis configuration name is a reserved virtual configuration." % options["--save"])
try:
profile_folder = os.path.join(profile_path, options["--save"])
if "-r" in options:
options["--remove"] = options["-r"]
if "--remove" in options:
- if options["--remove"] in ( x[0] for x in virtual_profiles ):
+ if options["--remove"] in (x[0] for x in virtual_profiles):
raise AutorandrException("Cannot remove profile '%s':\nThis configuration name is a reserved virtual configuration." % options["--remove"])
if options["--remove"] not in profiles.keys():
raise AutorandrException("Cannot remove profile '%s':\nThis profile does not exist." % options["--remove"])
options["--load"] = options["-l"]
if "--load" in options:
load_profile = options["--load"]
+ elif len(args) == 1:
+ load_profile = args[0]
else:
# Find the active profile(s) first, for the block script (See #42)
current_profiles = []
if configs_are_equal:
current_profiles.append(profile_name)
block_script_metadata = {
- "CURRENT_PROFILE": "".join(current_profiles[:1]),
+ "CURRENT_PROFILE": "".join(current_profiles[:1]),
"CURRENT_PROFILES": ":".join(current_profiles)
}
print("'%s' symlinked to '%s'" % (load_profile, profile_symlinks[load_profile]))
load_profile = profile_symlinks[load_profile]
- if load_profile in ( x[0] for x in virtual_profiles ):
+ if load_profile in (x[0] for x in virtual_profiles):
load_config = generate_virtual_profile(config, modes, load_profile)
scripts_path = os.path.join(profile_path, load_profile)
else:
if load_profile in detected_profiles and detected_profiles[0] != load_profile:
update_mtime(os.path.join(scripts_path, "config"))
add_unused_outputs(config, load_config)
- if load_config == dict(config) and not "-f" in options and not "--force" in options:
+ if load_config == dict(config) and "-f" not in options and "--force" not in options:
print("Config already loaded", file=sys.stderr)
sys.exit(0)
if "--debug" in options and load_config != dict(config):
sys.exit(0)
+
def exception_handled_main(argv=sys.argv):
try:
main(sys.argv)
print("Unhandled exception ({0}). Please report this as a bug at https://github.com/phillipberndt/autorandr/issues.".format(e), file=sys.stderr)
raise
+
if __name__ == '__main__':
exception_handled_main()