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|
#!/usr/bin/env python3
# Copyright © 2014 Mattias Andrée (maandree@member.fsf.org)
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
import os
import sys
from subprocess import Popen, PIPE
from aux import *
from curve import *
LIBDIR = 'bin'
'''
:str Path to libraries, '/usr/lib' is standard
'''
LIBEXECDIR = 'bin'
'''
:str Path to executable libraries, '/usr/libexec' is standard
'''
## Add the path to libraries to the list of paths to Python modules
sys.path.append(LIBDIR)
## Load DRM module
try:
from blueshift_drm import *
except:
# Not compiled with DRM support
pass
## Load W32 GDI module
try:
from blueshift_w32gdi import *
except:
# Not compiled with W32 GDI support
pass
## Load Quartz module
try:
from blueshift_quartz import *
except:
# Not compiled with Quartz support
pass
randr_opened = None
'''
:(int, str)? The index of the, with RandR, opened X screen and X display, if any
'''
vidmode_opened = None
'''
:(int, str)? The index of the, with VidMode, opened X screen and X display, if any
'''
w32gdi_opened = False
'''
:bool Whether W32 GDI is in use
'''
quartz_opened = False
'''
:bool Whether Quartz is in use
'''
def close_c_bindings():
'''
Close all C bindings and let them free resources and close connections
'''
global randr_opened, vidmode_opened, w32gdi_opened, quartz_opened
if randr_opened is not None:
# Close RandR connection if open
from blueshift_randr import randr_close
randr_opened = None
randr_close()
if vidmode_opened is not None:
# Close VidMode connection if open
from blueshift_vidmode import vidmode_close
vidmode_opened = None
vidmode_close()
if w32gdi_opened:
# Close W32 GDI connection if open
w32gdi_opened = False
w32gdi_close()
if quartz_opened:
# Close Quartz connection if open
quartz_opened = False
quartz_close()
# Close DRM connection if open
drm_manager.close()
def randr_get(crtc = 0, screen = 0, display = None):
'''
Gets the current colour curves using the X11 extension RandR
@param crtc:int The CRTC of the monitor to read from
@param screen:int The screen to which the monitors belong
@param display:str? The display to which to connect, `None` for current display
@return :()→void Function to invoke to apply the curves that was used when this function was invoked
'''
from blueshift_randr import randr_open, randr_read, randr_close
global randr_opened
# Open new RandR connection if non is open or one is open to the wrong screen or display
if (randr_opened is None) or not (randr_opened == (screen, display)):
# Close RandR connection, if any, because its is connected to the wrong screen or display
if randr_opened is not None:
randr_close()
# Open RandR connection
if randr_open(screen, display if display is None else display.encode('utf-8')) == 0:
randr_opened = (screen, display)
else:
raise Exception('Cannot open RandR connection')
# Read current curves and create function
return ramps_to_function(*(randr_read(crtc)))
def vidmode_get(crtc = 0, screen = 0, display = None):
'''
Gets the current colour curves using the X11 extension VidMode
@param crtc:int The CRTC of the monitor to read from, dummy parameter
@param screen:int The screen to which the monitors belong
@param display:str? The display to which to connect, `None` for current display
@return :()→void Function to invoke to apply the curves that was used when this function was invoked
'''
from blueshift_vidmode import vidmode_open, vidmode_read, vidmode_close
global vidmode_opened
# Open new VidMode connection if non is open or one is open to the wrong screen or display
if (vidmode_opened is None) or not (vidmode_opened == (screen, display)):
# Close VidMode connection, if any, because its is connected to the wrong screen or display
if vidmode_opened is not None:
vidmode_close()
# Open VidMode connection
if vidmode_open(screen, display if display is None else display.encode('utf-8')):
vidmode_opened = (screen, display)
else:
raise Exception('Cannot open VidMode connection')
# Read current curves and create function
return ramps_to_function(*(vidmode_read()))
def drm_get(crtc = 0, screen = 0, display = None):
'''
Gets the current colour curves using DRM
@param crtc:int The CRTC of the monitor to read from
@param screen:int The graphics card to which the monitors belong, named `screen` for compatibility with `randr_get` and `vidmode_get`
@param display:str? Dummy parameter for compatibility with `randr_get` and `vidmode_get`
@return :()→void Function to invoke to apply the curves that was used when this function was invoked
'''
# Get DRM connection, open if necessary
connection = drm_manager.open_card(screen)
# Read current curves and create function
return ramps_to_function(*(drm_get_gamma_ramps(connection, crtc, i_size)))
def w32gdi_get(crtc = 0, screen = 0, display = None):
'''
Gets the current colour curves using W32 GDI
@param crtc:int The CRTC of the monitor to read from
@param screen:int Dummy parameter for compatibility with `randr_get`, `vidmode_get` and `drm_get`
@param display:str? Dummy parameter for compatibility with `randr_get` and `vidmode_get`
@return :()→void Function to invoke to apply the curves that was used when this function was invoked
'''
global w32gdi_opened
# Open W32 GDI connection if necessary
if not w32gdi_opened:
w32gdi_opened = True
if (not w32gdi_open() == 0):
raise Exception("Could not open W32 GDI connection")
# Read current curves and create function
return ramps_to_function(*(w32gdi_read(crtc)))
def quartz_get(crtc = 0, screen = 0, display = None):
'''
Gets the current colour curves using Quartz
@param crtc:int The CRTC of the monitor to read from
@param screen:int Dummy parameter for compatibility with `randr_get`, `vidmode_get` and `drm_get`
@param display:str? Dummy parameter for compatibility with `randr_get` and `vidmode_get`
@return :()→void Function to invoke to apply the curves that was used when this function was invoked
'''
global quartz_opened
# Open Quartz connection if necessary
if not quartz_opened:
quartz_opened = True
if (not quartz_open() == 0):
raise Exception("Could not open Quartz connection")
# Read current curves and create function
return ramps_to_function(*(quartz_read(crtc)))
def randr(*crtcs, screen = 0, display = None):
'''
Applies colour curves using the X11 extension RandR
@param crtcs:*int The CRT controllers to use, all are used if none are specified
@param screen:int The screen to which the monitors belong
@param display:str? The display to which to connect, `None` for current display
'''
from blueshift_randr import randr_open, randr_apply, randr_close
global randr_opened
# Select CRTC:s
crtcs = list(crtcs) if len(crtcs) > 0 else [-1]
# Convert curves to [0, 0xFFFF] integer lists
(R_curve, G_curve, B_curve) = translate_to_integers()
# Open new RandR connection if non is open or one is open to the wrong screen or display
if (randr_opened is None) or not (randr_opened == (screen, display)):
# Close RandR connection, if any, because its is connected to the wrong screen or display
if randr_opened is not None:
randr_close()
# Open RandR connection
if randr_open(screen, display if display is None else display.encode('utf-8')) == 0:
randr_opened = (screen, display)
else:
raise Exception('Cannot open RandR connection')
try:
# Apply adjustments
if not randr_apply(crtcs, R_curve, G_curve, B_curve) == 0:
raise Exception('Cannot use RandR to apply colour adjustments')
except OverflowError:
pass # Happens on exit by TERM signal
def vidmode(*crtcs, screen = 0, display = None):
'''
Applies colour curves using the X11 extension VidMode
@param crtcs:*int The CRT controllers to use, all are used if none are specified, dummy parameter
@param screen:int The screen to which the monitors belong
@param display:str? The display to which to connect, `None` for current display
'''
from blueshift_vidmode import vidmode_open, vidmode_apply, vidmode_close
global vidmode_opened
# Convert curves to [0, 0xFFFF] integer lists
(R_curve, G_curve, B_curve) = translate_to_integers()
# Open new vidmode connection if non is open or one is open to the wrong screen or display
if (vidmode_opened is None) or not (vidmode_opened == (screen, display)):
# Close vidmode connection, if any, because its is connected to the wrong screen or display
if vidmode_opened is not None:
vidmode_close()
# Open vidmode connection
if vidmode_open(screen, display if display is None else display.encode('utf-8')):
vidmode_opened = (screen, display)
else:
raise Exception('Cannot open VidMode connection')
try:
# Apply adjustments
if not vidmode_apply(R_curve, G_curve, B_curve) == 0:
raise Exception('Cannot use VidMode to apply colour adjustments')
except OverflowError:
pass # Happens on exit by TERM signal
def drm(*crtcs, screen = 0, display = None):
'''
Applies colour curves using DRM
@param crtcs:*int The CRT controllers to use, all are used if none are specified
@param screen:int The graphics card to which the monitors belong,
named `screen` for compatibility with `randr` and `vidmode`
@param display:str? Dummy parameter for compatibility with `randr` and `vidmode`
'''
# Get DRM connection, open if necessary
connection = drm_manager.open_card(screen)
# Convert curves to [0, 0xFFFF] integer lists
(R_curve, G_curve, B_curve) = translate_to_integers()
try:
# Select all CRTC:s if none have been selected
if len(crtcs) == 0:
crtcs = range(drm_crtc_count(connection))
# Apply adjustments
drm_set_gamma_ramps(connection, list(crtcs), i_size, R_curve, G_curve, B_curve)
except OverflowError:
pass # Happens on exit by TERM signal
def w32gdi(*crtcs, screen = 0, display = None):
'''
Applies colour curves using W32 GDI
@param crtcs:*int The CRT controllers to use, all are used if none are specified
@param screen:int Dummy parameter for compatibility with `randr`, `vidmode` and `drm`
@param display:str? Dummy parameter for compatibility with `randr` and `vidmode`
'''
global w32gdi_opened
# Open W32 GDI connection if necessary
if not w32gdi_opened:
w32gdi_opened = True
if (not w32gdi_open() == 0):
raise Exception("Could not open W32 GDI connection")
# Convert curves to [0, 0xFFFF] integer lists
(R_curve, G_curve, B_curve) = translate_to_integers()
try:
# Select all CRTC:s if none have been selected
if len(crtcs) == 0:
crtcs = range(w32gdi_crtc_count())
# Apply adjustments
w32gdi_apply(list(crtcs), R_curve, G_curve, B_curve)
except OverflowError:
pass # Happens on exit by TERM signal
def quartz(*crtcs, screen = 0, display = None):
'''
Applies colour curves using Quartz
@param crtcs:*int The CRT controllers to use, all are used if none are specified
@param screen:int Dummy parameter for compatibility with `randr`, `vidmode` and `drm`
@param display:str? Dummy parameter for compatibility with `randr` and `vidmode`
'''
global quartz_opened
# Open Quartz connection if necessary
if not quartz_opened:
quartz_opened = True
if (not quartz_open() == 0):
raise Exception("Could not open Quartz connection")
# Convert curves to [0, 0xFFFF] integer lists
(R_curve, G_curve, B_curve) = translate_to_integers()
try:
# Select all CRTC:s if none have been selected
if len(crtcs) == 0:
crtcs = range(quartz_crtc_count())
# Apply adjustments
quartz_apply(list(crtcs), R_curve, G_curve, B_curve)
except OverflowError:
pass # Happens on exit by TERM signal
def print_curves(*crtcs, screen = 0, display = None, compact = False):
'''
Prints the curves to stdout
@param crtcs:*int Dummy parameter
@param screen:int Dummy parameter
@param display:str? Dummy parameter
@param compact:bool Whether to print in compact form
'''
# Convert curves to [0, 0xFFFF] integer lists
(R_curve, G_curve, B_curve) = translate_to_integers()
if compact:
# Print each colour curve with run-length encoding
for curve in (R_curve, G_curve, B_curve):
# Print beginning
print('[', end = '')
last, count = None, 0
for i in range(i_size):
if curve[i] == last:
# Count repetition
count += 1
else:
# Print value
if last is not None:
print('%i {%i}, ' % (last, count), end = '')
# Store new value
last = curve[i]
# Restart counter
count = 1
# Print last value and ending
print('%i {%i}]' % (last, count))
else:
# Print the red colour curve
print(R_curve)
# Print the green colour curve
print(G_curve)
# Print the blue colour curve
print(B_curve)
class Screens:
'''
Information about all screens
'''
def __init__(self):
'''
Constructor
'''
self.screens = None
def __find(self, f):
'''
Find monitors in each screen
@param f:(Screen)→list<Output> Function that for one screen find all desired monitors in it
@return :list<Output> All desired monitors
'''
rc = []
for screen in self.screens:
rc += f(screen)
return rc
def find_by_crtc(self, index):
'''
Find output by CRTC index
@param index:int? The CRTC index
@return :list<Output> Matching outputs
'''
return self.__find(lambda screen : screen.find_by_crtc(index))
def find_by_name(self, name):
'''
Find output by name
@param name:str The name of the output
@return :list<Output> Matching outputs
'''
return self.__find(lambda screen : screen.find_by_name(name))
def find_by_size(self, widthmm, heigthmm):
'''
Find output by physical size
@param widthmm:int? The physical width, measured in millimetres, of the monitor
@param heightmm:int? The physical height, measured in millimetres, of the monitor
@return :list<Output> Matching outputs
'''
return self.__find(lambda screen : screen.find_by_size(widthmm, heigthmm))
def find_by_connected(self, status):
'''
Find output by connection status
@param status:bool Whether the output should be connected or not
@return :list<Output> Matching outputs
'''
return self.__find(lambda screen : screen.find_by_connected(status))
def find_by_edid(self, edid):
'''
Find output by extended display identification data
@param edid:str? The extended display identification data of the monitor
@return :list<Output> Matching outputs
'''
return self.__find(lambda screen : screen.find_by_edid(edid))
def __contains__(self, screen):
'''
Check if a screen is listed
@param screen:Screen The screen
@return :bool Whether the screen is listed
'''
return screen in self.screens
def __getitem__(self, index):
'''
Get a screen by its index
@param :int The screen's index
@return :Screen The screen
'''
return self.screens[index]
def __iter__(self):
'''
Create an interator of the screens
@return :itr<Screen> An interator of the screens
'''
return iter(self.screens)
def __len__(self):
'''
Get the number of screens
@return :int The number of screens
'''
return len(self.screens)
def __reversed__(self):
'''
Get a reversed iterator of the screens
@return :itr<Screen> An interator of the screens in reversed order
'''
return reversed(self.screens)
def __setitem__(self, index, item):
'''
Replace a screen
@param index:int The index of the screen
@param item:Screen The screen
'''
self.screens[index] = item
def __repr__(self):
'''
Get a string representation of the screens
@return :str String representation of the screens
'''
return repr(self.screens)
class Screen:
'''
Screen information
@variable crtc_count:int The number of CRTC:s
@variable output:list<Output> List of outputs
'''
def __init__(self):
'''
Constructor
'''
self.crtc_count = 0
self.outputs = []
def find_by_crtc(self, index):
'''
Find output by CRTC index
@param index:int? The CRTC index
@return :list<Output> Matching outputs
'''
return [output for output in self.outputs if output.crtc == index]
def find_by_name(self, name):
'''
Find output by name
@param name:str The name of the output
@return :list<Output> Matching outputs
'''
return [output for output in self.outputs if output.name == name]
def find_by_size(self, widthmm, heightmm):
'''
Find output by physical size
@param widthmm:int? The physical width, measured in millimetres, of the monitor
@param heightmm:int? The physical height, measured in millimetres, of the monitor
@return :list<Output> Matching outputs
'''
return [out for out in self.outputs if (out.widthmm == widthmm) and (out.heightmm == heightmm)]
def find_by_connected(self, status):
'''
Find output by connection status
@param status:bool Whether the output should be connected or not
@return :list<Output> Matching outputs
'''
return [output for output in self.outputs if output.connected == status]
def find_by_edid(self, edid):
'''
Find output by extended display identification data
@param edid:str? The extended display identification data of the monitor
@return :list<Output> Matching outputs
'''
return [output for output in self.outputs if output.edid == edid]
def __repr__(self):
'''
Return a string representation of the instance
@return :str String representation of the instance
'''
return '[CRTC count: %i, Outputs: %s]' % (self.crtc_count, repr(self.outputs))
class Output:
'''
Output information
@variable name:str The name of the output
@variable connected:bool Whether the outout is known to be connected
@variable widthmm:int? The physical width of the monitor, measured in millimetres, `None` if unknown, not defined or not connected
@variable heigthmm:int? The physical height of the monitor, measured in millimetres, `None` if unknown, not defined or not connected
@variable crtc:int? The CRTC index, `None` if not connected
@variable screen:int? The screen index, `None` if none
@variable edid:str? Extended display identification data, `None` if none
'''
def __init__(self):
'''
Constructor
'''
self.connected = False
self.name, self.widthmm, self.heightmm, self.crtc, self.screen, self.edid = [None] * 6
def __repr__(self):
'''
Return a string representation of the instance
'''
# Select the order of the values
rc = [self.name, self.connected, self.widthmm, self.heightmm, self.crtc, self.screen, self.edid]
# Convert the values to strings
rc = tuple(rc[:1] + [repr(x) for x in rc[1 : -1]] + [str(rc[-1])])
# Combine the values
return '[Name: %s, Connected: %s, Width: %s, Height: %s, CRTC: %s, Screen: %s, EDID: %s]' % rc
class EDID:
'''
Data structure for parsed EDID:s
@var widthmm:int? The physical width of the monitor, measured in millimetres, `None` if not defined
@var heightmm:int? The physical height of the monitor, measured in millimetres, `None` if not defined or not connected
@var gamma:float? The monitor's estimated gamma characteristics, `None` if not specified
@var gamma_correction:float? Gamma correction to use unless you know more exact values, calculated from `gamma`
'''
def __init__(self, edid):
'''
Constructor, parses an EDID
@param edid:str The edid to parse, in hexadecimal representation
@exception :Exception Raised when the EDID is not of a support format
'''
# Check the length of the EDID
if not len(edid) == 256:
raise Exception('EDID version not support, length mismatch')
# Check the EDID:s magic number
if not edid[:16].upper() == '00FFFFFFFFFFFF00':
raise Exception('EDID version not support, magic number mismatch')
# Convert to raw byte representation
edid = [int(edid[i * 2 : i * 2 + 2], 16) for i in range(128)]
# Check EDID structure version and revision
if not edid[18] == 1:
raise Exception('EDID version not support, version mismatch, only 1.3 supported')
if not edid[19] == 3:
raise Exception('EDID version not support, revision mismatch, only 1.3 supported')
# Get the maximum displayable image dimension
self.widthmm = edid[21] * 10
self.heightmm = edid[22] * 10
if (self.widthmm == 0) or (self.heightmm == 0):
# If either is zero, it is undefined, e.g. a projector
self.widthmm = None
self.heightmm = None
# Get the gamma characteristics
if (edid[23] == 255):
# Not specified if FFh
self.gamma = None
self.gamma_correction = None
else:
self.gamma = (edid[23] + 100) / 100
self.gamma_correction = self.gamma / 2.2
# Check the EDID checksum
if not sum(edid) % 256 == 0:
raise Exception('Incorrect EDID checksum')
def list_screens(method = 'randr', display = None):
'''
Retrieve informantion about all screens, outputs and CRTC:s
@param method:str The listing method: 'randr' for RandR (under X),
'drm' for DRM (under TTY)
@param display:str? The display to use, `None` for the current one
@return :Screens An instance of a datastructure with the relevant information
'''
if method == 'randr': return list_screens_randr(display = display)
if method == 'drm': return list_screens_drm()
raise Exception('Invalid method: %s' % method)
def list_screens_randr(display = None):
'''
Retrieve informantion about all screens, outputs and CRTC:s, using RandR
@param display:str? The display to use, `None` for the current one
@return :Screens An instance of a datastructure with the relevant information
'''
# Generate command line arguments to execute
command = [LIBEXECDIR + os.sep + 'blueshift_idcrtc']
if display is not None:
command.append(display)
# Spawn the executable library blueshift_idcrtc
process = Popen(command, stdout = PIPE)
# Wait for the child process to exit and gather its output to stdout
lines = process.communicate()[0].decode('utf-8', 'error').split('\n')
# Ensure that the child process has exited
while process.returncode is None:
process.wait()
# Raise an exception if the child process failed
if process.returncode != 0:
raise Exception('blueshift_idcrtc exited with value %i' % process.returncode)
# Trim the beginning of each line, that is, remove the
# indention added for human readablility
lines = [line.strip() for line in lines]
screens, screen_i, screen, output = None, None, None, None
for line in lines:
if line.startswith('Screen count: '):
# Prepare the screen table when we know how many screens there are
screens = [None] * int(line[len('Screen count: '):])
elif line.startswith('Screen: '):
# Get the index of the next screen
screen_i = int(line[len('Screen: '):])
# And add it to the table
screens[screen_i] = screen = Screen()
elif line.startswith('CRTC count: '):
# Store the number of CRTC:s
screen.crtc_count = int(line[len('CRTC count: '):])
elif line.startswith('Output count: '):
# Prepare the current screens output table when we know how many outputs it has
screen.outputs = [None] * int(line[len('Output count: '):])
elif line.startswith('Output: '):
# Get the index of the next output
output_i = int(line[len('Output: '):])
# Create structure for the output
output = Output()
# Store the screen index for the output so that it is easy
# to look it up when iterating over outputs
output.screen = screen_i
# Store the output in the table
screen.outputs[output_i] = output
elif line.startswith('Name: '):
# Store the name of the output
output.name = line[len('Name: '):]
elif line.startswith('Connection: '):
# Store the connection status of the output's connector
output.connected = line[len('Connection: '):] == 'connected'
elif line.startswith('Size: '):
# Store the physical dimensions of the monitor
output.widthmm, output.heightmm = [int(x) for x in line[len('Size: '):].split(' ')]
# But if it is zero or less it is unknown
if (output.widthmm <= 0) or (output.heightmm <= 0):
output.widthmm, output.heightmm = None, None
elif line.startswith('CRTC: '):
# Store the CRTC index of the output
output.crtc = int(line[len('CRTC: '):])
elif line.startswith('EDID: '):
# Store the output's extended dislay identification data
output.edid = line[len('EDID: '):]
# Store all screens in a special class that
# makes it easier to use them collectively
rc = Screens()
rc.screens = screens
return rc
def list_screens_drm():
'''
Retrieve informantion about all screens, outputs and CRTC:s, using DRM
@return :Screens An instance of a datastructure with the relevant information
'''
## This method should not use `drm_manager` because we want to be able to find updates
# Create instance of class with all the graphics cards so that it is easy
# to use them collectively,
screens = Screens()
# and create the list to fill with graphics cards.
screens.screens = []
## When using DRM we will often call graphics cards ‘screens’ as
## to keep consisitence with X extension. In real world use, it is
## usally equivalent, except for the order of the CRTC:s.
# For each graphics card, by index:
for card in range(drm_card_count()):
# Create an instance which makes it easy to use the
# graphics cards, such as searching for monitors,
screen = Screen()
# and append it to the list of graphics cards.
screens.screens.append(screen)
# Acquire resources for the graphics card,
connection = drm_open_card(card)
# but just ignore the card on failure.
if connection == -1:
continue # TODO could this fail if the card is already used by Blueshift?
# As our DRM module's API dictates, update the resources
drm_update_card(connection)
# Store the number of CRTC:s, so that it can
# be easily accessed; all connectors do not have a CRTCs,
# because they need to have a monitor connected an unused
# connectors are also listed.
screen.crtc_count = drm_crtc_count(connection)
# Create a graphics card local str → int map from the
# connector type name of the number of used such connectors
# so that we can name the outputs uniquely within the
# scope of the card with reason names. These will not be
# the same as the named given by RandR or `/sys/class/drm`.
used_names = {}
# For each connector of the graphics card:
for connector in range(drm_connector_count(connection)):
# Open a connection to the connector
drm_open_connector(connection, connector)
# Create an instance of a data structure to store output information inside,
output = Output()
# and add it to the list of outputs for the graphics card.
screen.outputs.append(output)
# The connector type name
output.name = drm_get_connector_type_name(connection, connector)
# and append an index to it and use that as the name of the output.
if output.name not in used_names:
# Start at zero,
used_names[output.name] = 0
# and count upwards as the type of connector reoccurs.
count = used_names[output.name]
used_names[output.name] += 1
output.name = '%s-%i' % (output.name, count)
# Store the connection status of the connector,
# but assume it is disconnected if it is unknown.
output.connected = drm_is_connected(connection, connector) == 1
if output.connected:
# Store the physical dimensions of the monitor
output.widthmm = drm_get_width(connection, connector)
output.heightmm = drm_get_height(connection, connector)
# But if it is zero or less it is unknown
if (output.widthmm <= 0) or (output.heightmm <= 0):
output.widthmm, output.heightmm = None, None
# Store the output's CRTC index
output.crtc = drm_get_crtc(connection, connector)
# Store the output's extended display identification data
output.edid = drm_get_edid(connection, connector)
# Store the graphics card index for the output so that
# it is easy to look it up when iterating over outputs
output.screen = card
# Now that we are done with the connector, close its resources
drm_close_connector(connection, connector)
# Now that we are done with the graphics card, close its resources
drm_close_card(connection)
# Mark that the DRM module has been used so that
# resource as properly freed. This is the only
# time in this function `drm_manager` shall be used.
drm_manager.is_open = True
return screens
class DRMManager:
'''
Manager for DRM connections to avoid monitor flicker on unnecessary connections
There should only be one instance of this class
@variable is_open:bool Whether the DRM module has been used
@variable cards:list<int>? Map from card index to connection file descriptors, -1 if not connected
'''
def __init__(self):
'''
Constructor
'''
self.is_open, self.cards, self.connectors = False, None, None
def open_card(self, card):
'''
Make sure there is a connection to a specific card
@param card:int The index of the card
@return :int -1 on failure, otherwise the identifier for the connection
'''
# Mark that the DRM module has been used
self.is_open = True
# Initialise connection map if not already initialised,
if self.cards is None:
self.cards = [-1] * drm_card_count()
# and the graphics card layer of the connector map.
self.connectors = [None] * drm_card_count()
# If we are not connected to the desired graphics card
if self.cards[card] == -1:
# connect to it
self.cards[card] = drm_open_card(card)
# and acquire resources.
drm_update_card(self.cards[card])
return self.cards[card]
def open_connector(self, card, connector):
'''
Make sure there is a connection to a specific connector
@param card:int The index of the card with the connector, must already be opened
@param connector:int The index of the connector
'''
# The file descriptor of the connection to the graphics card,
connection = self.open_card(card)
# and initialise the connector map if not alreadt initialised.
if self.connectors[card] is None:
self.connectors[card] = [False] * drm_connector_count()
# Then, if the connector is not already opened,
if not self.connectors[card][connector]:
# mark it as opened,
self.connectors[card][connector] = True
# and open it.
drm_open_connector(connection, connector)
def close_connector(self, card, connector):
'''
Make sure there is no connection to a specific connector
@param card:int The index of the card with the connector
@param connector:int The index of the connector
'''
# If no graphics card has been opened, do nothing
if self.cards is None: return
# Otherwise get the connection to the graphics card,
connection = self.cards[card]
# but do nothing if is has not been opened.
if connection == -1: return
# Neither do anything if no connector has been used.
if self.connectors[card] is None: return
# If the connector has been used,
if self.connectors[card][connector]:
# mark it as unused,
self.connectors[card][connector] = False
# as close it.
drm_close_connector(connection, connector)
def close_card(self, card):
'''
Make sure there is no connection to a specific card
@param card:int The index of the card
'''
# Do nothing is no graphics card has been used
if self.cards is None:
return
# Otherwise get the file descriptor of the connection to the card.
connection = self.cards[card]
# If The graphics card has been used
if not connection == -1:
# Mark it as unused,
self.cards[card] = -1
# and close the connection to any opened connector
if self.connectors[card] is not None:
# by iterating over the connectors
for i in range(len(self.connectors[card])):
# and close any opened connector
if self.connectors[card][i]:
drm_close_connector(connection, i)
# and then mark all connectors as unused.
self.connectors[card] = None
# Close the connection to the graphics card
drm_close_card(connection)
def close(self):
'''
Close all connections
'''
# If the DRM module as been used
if self.is_open:
# Makr it as unused
self.is_open = False
# And close all connections to the graphics cards and their connectors
if self.cards is not None:
for card in range(len(self.cards)):
self.close_card(card)
self.cards = None
# And close finally close the connection to DRM
drm_close()
drm_manager = DRMManager()
'''
:DRMManager Manager for DRM connections to avoid monitor flicker on unnecessary connections
'''
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