-#!/usr/bin/env python
+#!/usr/bin/env python3
# encoding: utf-8
#
# autorandr.py
import sys
import shutil
import time
+import glob
from collections import OrderedDict
-from distutils.version import LooseVersion as Version
from functools import reduce
from itertools import chain
+try:
+ from packaging.version import Version
+except ModuleNotFoundError:
+ from distutils.version import LooseVersion as Version
+
+if sys.version_info.major == 2:
+ import ConfigParser as configparser
+else:
+ import configparser
+
+__version__ = "1.11"
+
try:
input = raw_input
except NameError:
virtual_profiles = [
# (name, description, callback)
+ ("off", "Disable all outputs", None),
("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),
]
+properties = [
+ "Colorspace",
+ "max bpc",
+ "aspect ratio",
+ "Broadcast RGB",
+ "audio",
+ "non-desktop",
+ "TearFree",
+ "underscan vborder",
+ "underscan hborder",
+ "underscan",
+ "scaling mode",
+]
+
help_text = """
Usage: autorandr [options]
-h, --help get this small help
--c, --change reload current setup
+-c, --change automatically load the first detected profile
+-d, --default <profile> make profile <profile> the default profile
+-l, --load <profile> load profile <profile>
-s, --save <profile> save your current setup to profile <profile>
-r, --remove <profile> remove profile <profile>
--l, --load <profile> load profile <profile>
--d, --default <profile> make profile <profile> the default profile
---skip-options <option> comma separated list of xrandr arguments (e.g. "gamma")
- to skip both in detecting changes and applying a profile
---force force (re)loading of a profile
---fingerprint fingerprint your current hardware setup
+--batch run autorandr for all users with active X11 sessions
+--current only list current (active) configuration(s)
--config dump your current xrandr setup
---dry-run don't change anything, only print the xrandr commands
+--cycle automatically load the next detected profile
--debug enable verbose output
---batch run autorandr for all users with active X11 sessions
-
- To prevent a profile from being loaded, place a script called "block" in its
- directory. The script is evaluated before the screen setup is inspected, and
- in case of it returning a value of 0 the profile is skipped. This can be used
- to query the status of a docking station you are about to leave.
+--detected only list detected (available) configuration(s)
+--dry-run don't change anything, only print the xrandr commands
+--fingerprint fingerprint your current hardware setup
+--match-edid match diplays based on edid instead of name
+--force force (re)loading of a profile / overwrite exiting files
+--list list configurations
+--skip-options <option> comma separated list of xrandr arguments (e.g. "gamma")
+ to skip both in detecting changes and applying a profile
+--version show version information and exit
If no suitable profile can be identified, the current configuration is kept.
To change this behaviour and switch to a fallback configuration, specify
--default <profile>.
- Another script called "postswitch" can be placed in the directory
- ~/.config/autorandr (or ~/.autorandr if you have an old installation) as well
- as in any profile directories: The scripts are executed after a mode switch
- has taken place and can notify window managers.
+ autorandr supports a set of per-profile and global hooks. See the documentation
+ for details.
The following virtual configurations are available:
""".strip()
+def is_closed_lid(output):
+ if not re.match(r'(eDP(-?[0-9]\+)*|LVDS(-?[0-9]\+)*)', output):
+ return False
+ lids = glob.glob("/proc/acpi/button/lid/*/state")
+ if len(lids) == 1:
+ state_file = lids[0]
+ with open(state_file) as f:
+ content = f.read()
+ return "close" in content
+ return False
+
+
class AutorandrException(Exception):
def __init__(self, message, original_exception=None, report_bug=False):
self.message = message
class XrandrOutput(object):
"Represents an XRandR output"
+ XRANDR_PROPERTIES_REGEXP = "|".join(
+ [r"{}:\s*(?P<{}>[\S ]*\S+)"
+ .format(re.sub(r"\s", r"\\\g<0>", p), re.sub(r"\W+", "_", p.lower()))
+ for p in properties])
+
# This regular expression is used to parse an output in `xrandr --verbose'
XRANDR_OUTPUT_REGEXP = """(?x)
- ^(?P<output>[^ ]+)\s+ # Line starts with output name
- (?: # Differentiate disconnected and connected in first line
- disconnected |
+ ^\s*(?P<output>\S[^ ]*)\s+ # Line starts with output name
+ (?: # Differentiate disconnected and connected
+ disconnected | # in first line
unknown\ connection |
(?P<connected>connected)
)
(?:\(0x[0-9a-fA-F]+\)\s+)? # XID
(?P<rotate>(?:normal|left|right|inverted))\s+ # Rotation
(?:(?P<reflect>X\ and\ Y|X|Y)\ axis)? # Reflection
- )? # .. but everything of the above only if the screen is in use.
+ )? # .. but only if the screen is in use.
(?:[\ \t]*\([^\)]+\))(?:\s*[0-9]+mm\sx\s[0-9]+mm)?
(?:[\ \t]*panning\ (?P<panning>[0-9]+x[0-9]+\+[0-9]+\+[0-9]+))? # Panning information
(?:[\ \t]*tracking\ (?P<tracking>[0-9]+x[0-9]+\+[0-9]+\+[0-9]+))? # Tracking information
(?:[\ \t]*border\ (?P<border>(?:[0-9]+/){3}[0-9]+))? # Border information
(?:\s*(?: # Properties of the output
- Gamma: (?P<gamma>(?:inf|[0-9\.: e])+) | # Gamma value
+ Gamma: (?P<gamma>(?:inf|-?[0-9\.\-: e])+) | # Gamma value
+ CRTC:\s*(?P<crtc>[0-9]) | # CRTC value
Transform: (?P<transform>(?:[\-0-9\. ]+\s+){3}) | # Transformation matrix
EDID: (?P<edid>\s*?(?:\\n\\t\\t[0-9a-f]+)+) | # EDID of the output
+ """ + XRANDR_PROPERTIES_REGEXP + """ | # Properties to include in the profile
(?![0-9])[^:\s][^:\n]+:.*(?:\s\\t[\\t ].+)* # Other properties
))+
\s*
(?P<modes>(?:
- (?P<mode_name>\S+).+?\*current.*\s+ # Interesting (current) resolution: Extract rate
- h:\s+width\s+(?P<mode_width>[0-9]+).+\s+
+ (?P<mode_name>\S+).+?\*current.*\s+ # Interesting (current) resolution:
+ h:\s+width\s+(?P<mode_width>[0-9]+).+\s+ # Extract rate
v:\s+height\s+(?P<mode_height>[0-9]+).+clock\s+(?P<rate>[0-9\.]+)Hz\s* |
\S+(?:(?!\*current).)+\s+h:.+\s+v:.+\s* # Other resolutions
)*)
@property
def option_vector(self):
"Return the command line parameters for XRandR for this instance"
- return sum([["--%s" % option[0], option[1]] if option[1] else ["--%s" % option[0]] for option in chain((("output", self.output),), sorted(self.options_with_defaults.items()))], [])
+ args = ["--output", self.output]
+ for option, arg in sorted(self.options_with_defaults.items()):
+ if option[:5] == "prop-":
+ prop_found = False
+ for prop, xrandr_prop in [(re.sub(r"\W+", "_", p.lower()), p) for p in properties]:
+ if prop == option[5:]:
+ args.append("--set")
+ args.append(xrandr_prop)
+ prop_found = True
+ break
+ if not prop_found:
+ print("Warning: Unknown property `%s' in config file. Skipping." % option[5:], file=sys.stderr)
+ continue
+ else:
+ args.append("--%s" % option)
+ if arg:
+ args.append(arg)
+ return args
@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()))])
+ options = ["output %s" % self.output]
+ for option, arg in sorted(self.filtered_options.items()):
+ if arg:
+ options.append("%s %s" % (option, arg))
+ else:
+ options.append(option)
+ return "\n".join(options)
@property
def sort_key(self):
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)
+ 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)
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 = []
+ for mode_match in re.finditer(XrandrOutput.XRANDR_OUTPUT_MODES_REGEXP, match["modes"]):
+ if mode_match.group("name"):
+ modes.append(mode_match.groupdict())
if not modes:
raise AutorandrException("Parsing XRandR output failed, couldn't find any display modes", report_bug=True)
options = {}
if not match["connected"]:
edid = None
+ elif match["edid"]:
+ edid = "".join(match["edid"].strip().split())
else:
- edid = "".join(match["edid"].strip().split()) if match["edid"] else "%s-%s" % (XrandrOutput.EDID_UNAVAILABLE, match["output"])
-
+ edid = "%s-%s" % (XrandrOutput.EDID_UNAVAILABLE, match["output"])
+
+ # An output can be disconnected but still have a mode configured. This can only happen
+ # as a residual situation after a disconnect, you cannot associate a mode with an disconnected
+ # output.
+ #
+ # This code needs to be careful not to mix the two. An output should only be configured to
+ # "off" if it doesn't have a mode associated with it, which is modelled as "not a width" here.
if not match["width"]:
options["off"] = None
else:
options["mode"] = "%sx%s" % (match["mode_width"], match["mode_height"])
else:
if match["rotate"] not in ("left", "right"):
- options["mode"] = "%sx%s" % (match["width"], match["height"])
+ options["mode"] = "%sx%s" % (match["width"] or 0, match["height"] or 0)
else:
- options["mode"] = "%sx%s" % (match["height"], match["width"])
- options["rotate"] = match["rotate"]
+ options["mode"] = "%sx%s" % (match["height"] or 0, match["width"] or 0)
+ if match["rotate"]:
+ options["rotate"] = match["rotate"]
if match["primary"]:
options["primary"] = None
if match["reflect"] == "X":
options["reflect"] = "y"
elif match["reflect"] == "X and Y":
options["reflect"] = "xy"
- options["pos"] = "%sx%s" % (match["x"], match["y"])
+ if match["x"] or match["y"]:
+ options["pos"] = "%sx%s" % (match["x"] or "0", match["y"] or "0")
if match["panning"]:
panning = [match["panning"]]
if match["tracking"]:
if transformation != "1.000000,0.000000,0.000000,0.000000,1.000000,0.000000,0.000000,0.000000,1.000000":
options["transform"] = transformation
if not match["mode_name"]:
- # TODO We'd need to apply the reverse transformation here. Let's see if someone complains, I doubt that this
- # special case is actually required.
- print("Warning: Output %s has a transformation applied. Could not determine correct mode! Using `%s'." % (match["output"], options["mode"]), file=sys.stderr)
+ # TODO We'd need to apply the reverse transformation here. Let's see if someone complains,
+ # I doubt that this special case is actually required.
+ print("Warning: Output %s has a transformation applied. Could not determine correct mode! "
+ "Using `%s'." % (match["output"], options["mode"]), file=sys.stderr)
if match["gamma"]:
gamma = match["gamma"].strip()
# xrandr prints different values in --verbose than it accepts as a parameter value for --gamma
# so we approximate by 1e-10.
gamma = ":".join([str(max(1e-10, round(1. / float(x), 3))) for x in gamma.split(":")])
options["gamma"] = gamma
+ if match["crtc"]:
+ options["crtc"] = match["crtc"]
if match["rate"]:
options["rate"] = match["rate"]
+ for prop in [re.sub(r"\W+", "_", p.lower()) for p in properties]:
+ if match[prop]:
+ options["prop-" + prop] = match[prop]
return XrandrOutput(match["output"], edid, options), modes
if fuzzy_output in fuzzy_edid_map:
edid = edid_map[list(edid_map.keys())[fuzzy_edid_map.index(fuzzy_output)]]
elif "off" not in options:
- raise AutorandrException("Failed to find an EDID for output `%s' in setup file, required as `%s' is not off in config file." % (options["output"], options["output"]))
+ raise AutorandrException("Failed to find an EDID for output `%s' in setup file, required as `%s' "
+ "is not off in config file." % (options["output"], options["output"]))
output = options["output"]
del options["output"]
return hashlib.md5(binascii.unhexlify(other.edid)).hexdigest() == self.edid
if len(self.edid) != 32 and len(other.edid) == 32 and not self.edid.startswith(XrandrOutput.EDID_UNAVAILABLE):
return hashlib.md5(binascii.unhexlify(self.edid)).hexdigest() == other.edid
+ if "*" in self.edid:
+ return match_asterisk(self.edid, other.edid) > 0
+ elif "*" in other.edid:
+ return match_asterisk(other.edid, self.edid) > 0
return self.edid == other.edid
def __ne__(self, other):
else:
for name in set(chain.from_iterable((self.options.keys(), other.options.keys()))):
if name not in other.options:
- diffs.append("Option --%s %sis not present in the new configuration" % (name, "(= `%s') " % self.options[name] if self.options[name] else ""))
+ diffs.append("Option --%s %sis not present in the new configuration" %
+ (name, "(= `%s') " % self.options[name] if self.options[name] else ""))
elif name not in self.options:
- diffs.append("Option --%s (`%s' in the new configuration) is not present currently" % (name, other.options[name]))
+ diffs.append("Option --%s (`%s' in the new configuration) is not present currently" %
+ (name, other.options[name]))
elif self.options[name] != other.options[name]:
- diffs.append("Option --%s %sis `%s' in the new configuration" % (name, "(= `%s') " % self.options[name] if self.options[name] else "", other.options[name]))
+ 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
break
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]))
+ 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]))
except ImportError:
pass
return "Debug information would be available if the `regex' module was installed."
if output_modes:
modes[output_name] = output_modes
+ # consider a closed lid as disconnected if other outputs are connected
+ if sum(o.edid != None for o in outputs.values()) > 1:
+ for output_name in outputs.keys():
+ if is_closed_lid(output_name):
+ outputs[output_name].edid = None
+
return outputs, modes
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
return symlinks
+def match_asterisk(pattern, data):
+ """Match data against a pattern
+
+ The difference to fnmatch is that this function only accepts patterns with a single
+ asterisk and that it returns a "closeness" number, which is larger the better the match.
+ Zero indicates no match at all.
+ """
+ if "*" not in pattern:
+ return 1 if pattern == data else 0
+ parts = pattern.split("*")
+ if len(parts) > 2:
+ raise ValueError("Only patterns with a single asterisk are supported, %s is invalid" % pattern)
+ if not data.startswith(parts[0]):
+ return 0
+ if not data.endswith(parts[1]):
+ return 0
+ matched = len(pattern)
+ total = len(data) + 1
+ return matched * 1. / total
+
+
+def update_profiles_edid(profiles, config):
+ edid_map = {}
+ for c in config:
+ if config[c].edid is not None:
+ edid_map[config[c].edid] = c
+
+ for p in profiles:
+ profile_config = profiles[p]["config"]
+
+ for edid in edid_map:
+ for c in profile_config.keys():
+ if profile_config[c].edid != edid or c == edid_map[edid]:
+ continue
+
+ print("%s: renaming display %s to %s" % (p, c, edid_map[edid]))
+
+ tmp_disp = profile_config[c]
+
+ if edid_map[edid] in profile_config:
+ # Swap the two entries
+ profile_config[c] = profile_config[edid_map[edid]]
+ profile_config[c].output = c
+ else:
+ # Object is reassigned to another key, drop this one
+ del profile_config[c]
+
+ profile_config[edid_map[edid]] = tmp_disp
+ profile_config[edid_map[edid]].output = edid_map[edid]
+
+
def find_profiles(current_config, profiles):
- "Find profiles matching the currently connected outputs"
+ "Find profiles matching the currently connected outputs, sorting asterisk matches to the back"
detected_profiles = []
for profile_name, profile in profiles.items():
config = profile["config"]
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)
+ closeness = max(match_asterisk(output.edid, current_config[name].edid), match_asterisk(
+ current_config[name].edid, output.edid))
+ detected_profiles.append((closeness, profile_name))
+ detected_profiles = [o[1] for o in sorted(detected_profiles, key=lambda x: -x[0])]
return detected_profiles
return not exec_scripts(profile_path, "block", meta_information)
+def check_configuration_pre_save(configuration):
+ "Check that a configuration is safe for saving."
+ outputs = sorted(configuration.keys(), key=lambda x: configuration[x].sort_key)
+ for output in outputs:
+ if "off" not in configuration[output].options and not configuration[output].edid:
+ return ("`%(o)s' is not off (has a mode configured) but is disconnected (does not have an EDID).\n"
+ "This typically means that it has been recently unplugged and then not properly disabled\n"
+ "by the user. Please disable it (e.g. using `xrandr --output %(o)s --off`) and then rerun\n"
+ "this command.") % {"o": output}
+
+
def output_configuration(configuration, config):
"Write a configuration file"
outputs = sorted(configuration.keys(), key=lambda x: configuration[x].sort_key)
print(output, configuration[output].edid, file=setup)
-def save_configuration(profile_path, configuration):
+def save_configuration(profile_path, profile_name, configuration, forced=False):
"Save a configuration into a profile"
if not os.path.isdir(profile_path):
os.makedirs(profile_path)
- with open(os.path.join(profile_path, "config"), "w") as config:
+ config_path = os.path.join(profile_path, "config")
+ setup_path = os.path.join(profile_path, "setup")
+ if os.path.isfile(config_path) and not forced:
+ raise AutorandrException('Refusing to overwrite config "{}" without passing "--force"!'.format(profile_name))
+ if os.path.isfile(setup_path) and not forced:
+ raise AutorandrException('Refusing to overwrite config "{}" without passing "--force"!'.format(profile_name))
+
+ with open(config_path, "w") as config:
output_configuration(configuration, config)
- with open(os.path.join(profile_path, "setup"), "w") as setup:
+ with open(setup_path, "w") as setup:
output_setup(configuration, setup)
return retval
+def get_fb_dimensions(configuration):
+ width = 0
+ height = 0
+ for output in configuration.values():
+ if "off" in output.options or not output.edid:
+ continue
+ # This won't work with all modes -- but it's a best effort.
+ match = re.search("[0-9]{3,}x[0-9]{3,}", output.options["mode"])
+ if not match:
+ return None
+ o_mode = match.group(0)
+ o_width, o_height = map(int, o_mode.split("x"))
+ if "transform" in output.options:
+ a, b, c, d, e, f, g, h, i = map(float, output.options["transform"].split(","))
+ w = (g * o_width + h * o_height + i)
+ x = (a * o_width + b * o_height + c) / w
+ y = (d * o_width + e * o_height + f) / w
+ o_width, o_height = x, y
+ if "rotate" in output.options:
+ if output.options["rotate"] in ("left", "right"):
+ o_width, o_height = o_height, o_width
+ if "pos" in output.options:
+ o_left, o_top = map(int, output.options["pos"].split("x"))
+ o_width += o_left
+ o_height += o_top
+ if "panning" in output.options:
+ match = re.match("(?P<w>[0-9]+)x(?P<h>[0-9]+)(?:\+(?P<x>[0-9]+))?(?:\+(?P<y>[0-9]+))?.*", output.options["panning"])
+ if match:
+ detail = match.groupdict(default="0")
+ o_width = int(detail.get("w")) + int(detail.get("x"))
+ o_height = int(detail.get("h")) + int(detail.get("y"))
+ width = max(width, o_width)
+ height = max(height, o_height)
+ return int(width), int(height)
+
+
def apply_configuration(new_configuration, current_configuration, dry_run=False):
"Apply a configuration"
+ found_top_left_monitor = False
+ found_left_monitor = False
+ found_top_monitor = False
outputs = sorted(new_configuration.keys(), key=lambda x: new_configuration[x].sort_key)
if dry_run:
base_argv = ["echo", "xrandr"]
# explicitly, so avoid it unless necessary.
# (See https://github.com/phillipberndt/autorandr/issues/72)
+ fb_dimensions = get_fb_dimensions(new_configuration)
+ try:
+ base_argv += ["--fb", "%dx%d" % fb_dimensions]
+ except:
+ # Failed to obtain frame-buffer size. Doesn't matter, xrandr will choose for the user.
+ pass
+
auxiliary_changes_pre = []
disable_outputs = []
enable_outputs = []
if not new_configuration[output].edid or "off" in new_configuration[output].options:
disable_outputs.append(new_configuration[output].option_vector)
else:
+ if output not in current_configuration:
+ raise AutorandrException("New profile configures output %s which does not exist in current xrandr --verbose output. "
+ "Don't know how to proceed." % output)
if "off" not in current_configuration[output].options:
remain_active_count += 1
option_vector = new_configuration[output].option_vector
if xrandr_version() >= Version("1.3.0"):
- for option in ("transform", "panning"):
+ for option, off_value in (("transform", "none"), ("panning", "0x0")):
if option in current_configuration[output].options:
- auxiliary_changes_pre.append(["--output", output, "--%s" % option, "none"])
+ auxiliary_changes_pre.append(["--output", output, "--%s" % option, off_value])
else:
try:
option_index = option_vector.index("--%s" % option)
option_vector = option_vector[:option_index] + option_vector[option_index + 2:]
except ValueError:
pass
-
- enable_outputs.append(option_vector)
+ if not found_top_left_monitor:
+ position = new_configuration[output].options.get("pos", "0x0")
+ if position == "0x0":
+ found_top_left_monitor = True
+ enable_outputs.insert(0, option_vector)
+ elif not found_left_monitor and position.startswith("0x"):
+ found_left_monitor = True
+ enable_outputs.insert(0, option_vector)
+ elif not found_top_monitor and position.endswith("x0"):
+ found_top_monitor = True
+ enable_outputs.insert(0, option_vector)
+ else:
+ enable_outputs.append(option_vector)
+ else:
+ enable_outputs.append(option_vector)
# Perform pe-change auxiliary changes
if auxiliary_changes_pre:
# Disable unused outputs, but make sure that there always is at least one active screen
disable_keep = 0 if remain_active_count else 1
if len(disable_outputs) > disable_keep:
- if call_and_retry(base_argv + list(chain.from_iterable(disable_outputs[:-1] if disable_keep else disable_outputs)), dry_run=dry_run) != 0:
+ argv = base_argv + list(chain.from_iterable(disable_outputs[:-1] if disable_keep else disable_outputs))
+ if call_and_retry(argv, dry_run=dry_run) != 0:
# Disabling the outputs failed. Retry with the next command:
# Sometimes disabling of outputs fails due to an invalid RRSetScreenSize.
# This does not occur if simultaneously the primary screen is reset.
# In the context of a xrandr call that changes the display state, `--query' should do nothing
disable_outputs.insert(0, ['--query'])
+ # If we did not find a candidate, we might need to inject a call
+ # If there is no output to disable, we will enable 0x and x0 at the same time
+ if not found_top_left_monitor and len(disable_outputs) > 0:
+ # If the call to 0x and x0 is splitted, inject one of them
+ if found_top_monitor and found_left_monitor:
+ enable_outputs.insert(0, enable_outputs[0])
+
# Enable the remaining outputs in pairs of two operations
operations = disable_outputs + enable_outputs
for index in range(0, len(operations), 2):
def is_equal_configuration(source_configuration, target_configuration):
- "Check if all outputs from target are already configured correctly in source"
+ """
+ Check if all outputs from target are already configured correctly in source and
+ that no other outputs are active.
+ """
for output in target_configuration.keys():
- if (output not in source_configuration) or (source_configuration[output] != target_configuration[output]):
- return False
+ if "off" in target_configuration[output].options:
+ if (output in source_configuration and "off" not in source_configuration[output].options):
+ return False
+ else:
+ if (output not in source_configuration) or (source_configuration[output] != target_configuration[output]):
+ return False
+ for output in source_configuration.keys():
+ if "off" in source_configuration[output].options:
+ if output in target_configuration and "off" not in target_configuration[output].options:
+ return False
+ else:
+ if output not in target_configuration:
+ return False
return True
def remove_irrelevant_outputs(source_configuration, target_configuration):
"Remove outputs from target that ought to be 'off' and already are"
for output_name, output in source_configuration.items():
- if "off" in output.options and output_name in target_configuration and "off" in target_configuration[output_name].options:
- del target_configuration[output_name]
+ if "off" in output.options:
+ if output_name in target_configuration:
+ if "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 = reduce(lambda a, b: a & b, common_resolution[1:], common_resolution[0])
+ mode_sets = []
+ for output, output_modes in modes.items():
+ mode_set = set()
+ if configuration[output].edid:
+ for mode in output_modes:
+ mode_set.add((mode["width"], mode["height"]))
+ mode_sets.append(mode_set)
+ common_resolution = reduce(lambda a, b: a & b, mode_sets[1:], mode_sets[0])
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]
+ modes_sorted = sorted(modes[output], key=lambda x: 0 if x["preferred"] else 1)
+ modes_filtered = [x for x in modes_sorted if (x["width"], x["height"]) == common_resolution[-1]]
+ mode = modes_filtered[0]
+ configuration[output].options["mode"] = mode['name']
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]
+ def key(a):
+ score = int(a["width"]) * int(a["height"])
+ if a["preferred"]:
+ score += 10**6
+ return score
+ output_modes = sorted(modes[output], key=key)
+ mode = output_modes[-1]
configuration[output].options["mode"] = mode["name"]
configuration[output].options["rate"] = mode["rate"]
configuration[output].options["pos"] = pos_specifier % shift
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]
+ modes_unsorted = [output_modes[0] for output, output_modes in modes.items()]
+ modes_sorted = sorted(modes_unsorted, key=lambda x: int(x["width"]) * int(x["height"]), reverse=True)
+ biggest_resolution = modes_sorted[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]
+ def key(a):
+ score = int(a["width"]) * int(a["height"])
+ if a["preferred"]:
+ score += 10**6
+ return score
+ output_modes = sorted(modes[output], key=key)
+ mode = output_modes[-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"]))
+ 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
+ elif profile_name == "off":
+ for output in configuration:
+ for key in list(configuration[output].options.keys()):
+ del configuration[output].options[key]
+ configuration[output].options["off"] = None
return configuration
"Print the differences between two profiles for debugging"
if one == another:
return
- print("| Differences between the two profiles:", file=sys.stderr)
+ print("| Differences between the two profiles:")
for output in set(chain.from_iterable((one.keys(), another.keys()))):
if output not in one:
if "off" not in another[output].options:
- print("| Output `%s' is missing from the active configuration" % output, file=sys.stderr)
+ print("| Output `%s' is missing from the active configuration" % output)
elif output not in another:
if "off" not in one[output].options:
- print("| Output `%s' is missing from the new configuration" % output, file=sys.stderr)
+ print("| Output `%s' is missing from the new configuration" % output)
else:
for line in one[output].verbose_diff(another[output]):
- print("| [Output %s] %s" % (output, line), file=sys.stderr)
- print("\\-", file=sys.stderr)
+ print("| [Output %s] %s" % (output, line))
+ print("\\-")
def exit_help():
all_ok = True
env = os.environ.copy()
if meta_information:
- env.update({"AUTORANDR_%s" % str(key).upper(): str(value) for (key, value) in meta_information.items()})
+ for key, value in meta_information.items():
+ env["AUTORANDR_{}".format(key.upper())] = str(value)
# If there are multiple candidates, the XDG spec tells to only use the first one.
ran_scripts = set()
if not os.path.isdir(user_profile_path):
user_profile_path = os.path.join(os.environ.get("XDG_CONFIG_HOME", os.path.expanduser("~/.config")), "autorandr")
- candidate_directories = chain((user_profile_path,), (os.path.join(x, "autorandr") for x in os.environ.get("XDG_CONFIG_DIRS", "/etc/xdg").split(":")))
+ candidate_directories = []
if profile_path:
- candidate_directories = chain((profile_path,), candidate_directories)
+ candidate_directories.append(profile_path)
+ candidate_directories.append(user_profile_path)
+ for config_dir in os.environ.get("XDG_CONFIG_DIRS", "/etc/xdg").split(":"):
+ candidate_directories.append(os.path.join(config_dir, "autorandr"))
for folder in candidate_directories:
-
if script_name not in ran_scripts:
script = os.path.join(folder, script_name)
if os.access(script, os.X_OK | os.F_OK):
# 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([])
+ try:
+ os.setgroups(os.getgrouplist(pwent.pw_name, pwent.pw_gid))
+ except AttributeError:
+ # Python 2 doesn't have getgrouplist
+ 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)
+ if sys.executable != "" and sys.executable != None:
+ os.execl(sys.executable, sys.executable, autorandr_binary, *argv[1:])
+ else:
+ os.execl(autorandr_binary, autorandr_binary, *argv[1:])
+ sys.exit(1)
os.waitpid(child_pid, 0)
for directory in os.listdir("/proc"):
continue
process_environ = {}
- for environ_entry in open(environ_file).read().split("\0"):
- if "=" in environ_entry:
- name, value = environ_entry.split("=", 1)
+ for environ_entry in open(environ_file, 'rb').read().split(b"\0"):
+ try:
+ environ_entry = environ_entry.decode("ascii")
+ except UnicodeDecodeError:
+ continue
+ name, sep, value = environ_entry.partition("=")
+ if name and sep:
if name == "DISPLAY" and "." in value:
value = value[:value.find(".")]
process_environ[name] = value
X11_displays_done.add(display)
+def enabled_monitors(config):
+ monitors = []
+ for monitor in config:
+ if "--off" in config[monitor].option_vector:
+ continue
+ monitors.append(monitor)
+ return monitors
+
+
+def read_config(options, directory):
+ """Parse a configuration config.ini from directory and merge it into
+ the options dictionary"""
+ config = configparser.ConfigParser()
+ config.read(os.path.join(directory, "settings.ini"))
+ if config.has_section("config"):
+ for key, value in config.items("config"):
+ options.setdefault("--%s" % key, value)
+
def main(argv):
try:
- 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"])
+ opts, args = getopt.getopt(argv[1:], "s:r:l:d:cfh",
+ ["batch", "dry-run", "change", "cycle", "default=", "save=", "remove=", "load=",
+ "force", "fingerprint", "config", "debug", "skip-options=", "help",
+ "list", "current", "detected", "version", "match-edid"])
except getopt.GetoptError as e:
print("Failed to parse options: {0}.\n"
"Use --help to get usage information.".format(str(e)),
if "-h" in options or "--help" in options:
exit_help()
+ if "--version" in options:
+ print("autorandr " + __version__)
+ sys.exit(0)
+
+ if "--current" in options and "--detected" in options:
+ print("--current and --detected are mutually exclusive.", file=sys.stderr)
+ sys.exit(posix.EX_USAGE)
+
# Batch mode
if "--batch" in options:
if ("DISPLAY" not in os.environ or not os.environ["DISPLAY"]) and os.getuid() == 0:
if os.path.isdir(system_profile_path):
profiles.update(load_profiles(system_profile_path))
profile_symlinks.update(get_symlinks(system_profile_path))
+ read_config(options, system_profile_path)
# For the user's profiles, prefer the legacy ~/.autorandr if it already exists
# profile_path is also used later on to store configurations
profile_path = os.path.expanduser("~/.autorandr")
if os.path.isdir(profile_path):
profiles.update(load_profiles(profile_path))
profile_symlinks.update(get_symlinks(profile_path))
- # Sort by descending mtime
- profiles = OrderedDict(sorted(profiles.items(), key=lambda x: -x[1]["config-mtime"]))
+ read_config(options, profile_path)
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}
-
exec_scripts(None, "predetect")
config, modes = parse_xrandr_output()
+ if "--match-edid" in options:
+ update_profiles_edid(profiles, config)
+
+ # Sort by mtime
+ sort_direction = -1
+ if "--cycle" in options:
+ # When cycling through profiles, put the profile least recently used to the top of the list
+ sort_direction = 1
+ profiles = OrderedDict(sorted(profiles.items(), key=lambda x: sort_direction * x[1]["config-mtime"]))
+ 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}
+
if "--fingerprint" in options:
output_setup(config, sys.stdout)
sys.exit(0)
options["--save"] = options["-s"]
if "--save" in options:
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"])
+ raise AutorandrException("Cannot save current configuration as profile '%s':\n"
+ "This configuration name is a reserved virtual configuration." % options["--save"])
+ error = check_configuration_pre_save(config)
+ if error:
+ print("Cannot save current configuration as profile '%s':" % options["--save"])
+ print(error)
+ sys.exit(1)
try:
profile_folder = os.path.join(profile_path, options["--save"])
- save_configuration(profile_folder, config)
- exec_scripts(profile_folder, "postsave", {"CURRENT_PROFILE": options["--save"], "PROFILE_FOLDER": profile_folder})
+ save_configuration(profile_folder, options['--save'], config, forced="--force" in options)
+ exec_scripts(profile_folder, "postsave", {
+ "CURRENT_PROFILE": options["--save"],
+ "PROFILE_FOLDER": profile_folder,
+ "MONITORS": ":".join(enabled_monitors(config)),
+ })
+ except AutorandrException as e:
+ raise e
except Exception as e:
raise AutorandrException("Failed to save current configuration as profile '%s'" % (options["--save"],), e)
print("Saved current configuration as profile '%s'" % options["--save"])
options["--remove"] = options["-r"]
if "--remove" in options:
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"])
+ raise AutorandrException("Cannot remove profile '%s':\n"
+ "This 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"])
+ raise AutorandrException("Cannot remove profile '%s':\n"
+ "This profile does not exist." % options["--remove"])
try:
remove = True
profile_folder = os.path.join(profile_path, options["--remove"])
profile_dirlist.remove("config")
profile_dirlist.remove("setup")
if profile_dirlist:
- print("Profile folder '%s' contains the following additional files:\n---\n%s\n---" % (options["--remove"], "\n".join(profile_dirlist)))
+ print("Profile folder '%s' contains the following additional files:\n"
+ "---\n%s\n---" % (options["--remove"], "\n".join(profile_dirlist)))
response = input("Do you really want to remove profile '%s'? If so, type 'yes': " % options["--remove"]).strip()
if response != "yes":
remove = False
"CURRENT_PROFILES": ":".join(current_profiles)
}
+ best_index = 9999
for profile_name in profiles.keys():
if profile_blocked(os.path.join(profile_path, profile_name), block_script_metadata):
- print("%s (blocked)" % profile_name, file=sys.stderr)
+ if not any(opt in options for opt in ("--current", "--detected", "--list")):
+ print("%s (blocked)" % profile_name)
continue
props = []
+ is_current_profile = profile_name in current_profiles
if profile_name in detected_profiles:
- props.append("(detected)")
- if ("-c" in options or "--change" in options) and not load_profile:
- load_profile = profile_name
- if profile_name in current_profiles:
+ if len(detected_profiles) == 1:
+ index = 1
+ props.append("(detected)")
+ else:
+ index = detected_profiles.index(profile_name) + 1
+ props.append("(detected) (%d%s match)" % (index, ["st", "nd", "rd"][index - 1] if index < 4 else "th"))
+ if index < best_index:
+ if "-c" in options or "--change" in options or ("--cycle" in options and not is_current_profile):
+ load_profile = profile_name
+ best_index = index
+ elif "--detected" in options:
+ continue
+ if is_current_profile:
props.append("(current)")
- print("%s%s%s" % (profile_name, " " if props else "", " ".join(props)), file=sys.stderr)
+ elif "--current" in options:
+ continue
+ if any(opt in options for opt in ("--current", "--detected", "--list")):
+ print("%s" % (profile_name, ))
+ else:
+ print("%s%s%s" % (profile_name, " " if props else "", " ".join(props)))
if not configs_are_equal and "--debug" in options and profile_name in detected_profiles:
print_profile_differences(config, profiles[profile_name]["config"])
if "-d" in options:
options["--default"] = options["-d"]
- if not load_profile and "--default" in options:
+ if not load_profile and "--default" in options and ("-c" in options or "--change" in options or "--cycle" in options):
load_profile = options["--default"]
if load_profile:
scripts_path = profile["path"]
except KeyError:
raise AutorandrException("Failed to load profile '%s': Profile not found" % load_profile)
- if load_profile in detected_profiles and detected_profiles[0] != load_profile:
+ if "--dry-run" not in options:
update_mtime(os.path.join(scripts_path, "config"))
add_unused_outputs(config, load_config)
if load_config == dict(config) and "-f" not in options and "--force" not in options:
script_metadata = {
"CURRENT_PROFILE": load_profile,
"PROFILE_FOLDER": scripts_path,
+ "MONITORS": ":".join(enabled_monitors(load_config)),
}
exec_scripts(scripts_path, "preswitch", script_metadata)
if "--debug" in options:
print("Exception: {0}".format(e.__class__.__name__))
sys.exit(2)
- print("Unhandled exception ({0}). Please report this as a bug at https://github.com/phillipberndt/autorandr/issues.".format(e), file=sys.stderr)
+ print("Unhandled exception ({0}). Please report this as a bug at "
+ "https://github.com/phillipberndt/autorandr/issues.".format(e),
+ file=sys.stderr)
raise