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325 lines
15 KiB
325 lines
15 KiB
15 years ago
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#!/usr/bin/python
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###########################################################################
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# displayconfig-restore.py - description #
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# ------------------------------ #
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# begin : Wed Dec 15 2004 #
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# copyright : (C) 2004-2006 by Simon Edwards #
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# email : simon@simonzone.com #
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# #
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###########################################################################
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# #
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# This program is free software; you can redistribute it and/or modify #
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# it under the terms of the GNU General Public License as published by #
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# the Free Software Foundation; either version 2 of the License, or #
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# (at your option) any later version. #
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# #
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###########################################################################
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import os
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import os.path
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import subprocess
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import ixf86misc
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import xf86misc
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from execwithcapture import *
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############################################################################
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def FindXorgConfig(self):
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# Lookup location of X configfile
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for line in ExecWithCapture("xset", ["xset","q"],True).split('\n'):
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if line.strip().startswith("Config file"):
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return line.split(":")[1].strip()
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# Sometimes, xset doesn't know about the configfile location, hence ...
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if os.path.isfile("/etc/X11/xorg.conf"):
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return "/etc/X11/xorg.conf"
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return None
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############################################################################
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# FixXorgDPI
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# ==========
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# The idea here is to ensure that applications use a sensible DPI setting
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# for fonts. When Xorg starts up it tries to detect the size of the attached
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# monitor and calculate the real DPI from there and use that. Problems are:
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#
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# * if the monitor size can not be detect then Xorg uses 75dpi. This is
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# usually far too low.
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#
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# * if the monitor size is not accurately detected then you get bad a DPI.
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#
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# * most fonts are optimised to work at a handful of standard DPIs. 96dpi,
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# 120dpi and printer resolution 300dpi and 600dpi. Fonts rendered in
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# non-standard DPIs often look bad and jagged. This is a real problem
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# when rendering fonts on low resolution devices. (i.e. a computer
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# monitor).
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#
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# Although it is desirable in theory to use the real DPI of the monitor, in
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# practice it is more important to ensure that fonts are well rendered even
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# if the DPI in use is not correct.
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#
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# What this function does is read the display size from the X server and
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# if it is lower than 140dpi then 'round' it to either 96dpi or 120dpi.
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# (A dpi greater or equal to 140 is assumed to be high enough to render fonts
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# well.) The new dpi is then loaded with the xrdb command into the X server
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# resource database. Most X applications (Qt and GTK apps at least) will then
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# use this DPI for font rendering.
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#
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def FixXorgDPI(desiredDPI):
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# dpi is:
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# None - round the DPI.
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# xserver - Use the X server's DPI.
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# <number> - DPI to use.
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if desiredDPI=="xserver":
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return
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dpi = 96
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try:
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if desiredDPI is not None:
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dpi = int(desiredDPI)
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except ValueError:
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desiredDPI = None
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if desiredDPI is None:
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xserver = xf86misc.XF86Server()
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if len(xserver.getScreens())!=0:
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(width,height,width_mm,height_mm) = xserver.getScreens()[0].getDimensions()
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if not float(width_mm) == 0:
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w_dpi = float(width)/(float(width_mm)/25.4)
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else:
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w_dpi = 96
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if not float(height_mm) == 0:
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h_dpi = float(height)/(float(height_mm)/25.4)
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else:
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h_dpi = 96
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dpi = (w_dpi+h_dpi)/2.0 # Average the two possible DPIs.
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if dpi >= 140: # Anything above 140 is ok.
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dpi = int(dpi)
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else:
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if abs(96-dpi) < abs(120-dpi): # Rounding to 96 is best.
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dpi = 96
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else:
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dpi = 120
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# work around for LP beastie 151311
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if ((w_dpi < 200) and (h_dpi > 900)):
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dpi = 96
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try:
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xrdb = subprocess.Popen(["xrdb","-nocpp","-merge"],stdin=subprocess.PIPE)
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xrdb.communicate("Xft.dpi: %i\n" % dpi)
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xrdb.wait()
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except OSError:
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pass
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# Other common, but now used settingsfor xrdb:
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# Xft.antialias:
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# Xft.hinting:
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# Xft.hintstyle:
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# Xft.rgba:
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############################################################################
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def ReadDisplayConfigRC():
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screens = None
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dpi = None
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dpms_seconds = None
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dpms_enabled = None
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configpath = ExecWithCapture("kde-config",['kde-config','--path','config'],True)
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# Hunt down the user's displayconfigrc file and adjust the resolution
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# on the fly to match. (Non-root Users can independantly specify their own settings.)
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dirs = configpath.strip().split(":")
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for dir in dirs:
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if dir!="":
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configpath = os.path.join(dir,"displayconfigrc")
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if os.path.exists(configpath):
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# Parse the config file.
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fhandle = open(configpath)
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screens = []
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currentscreen = None
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for line in fhandle.readlines():
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line = line.strip()
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if line.startswith("[Screen"):
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# Screen, width, height, refresh, reflectx, reflecty, rotate, redgamma, greengamma,bluegamma
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currentscreen = [int(line[7:-1]), None, None, None, False, False, "0", None, None, None]
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screens.append(currentscreen)
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elif line.startswith("["):
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currentscreen = None
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elif line.startswith("dpi="):
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dpi = line[4:]
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elif currentscreen is not None:
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if line.startswith("width="):
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currentscreen[1] = int(line[6:])
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elif line.startswith("height="):
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currentscreen[2] = int(line[7:])
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elif line.startswith("refresh="):
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currentscreen[3] = int(line[8:])
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elif line.startswith("reflectX="):
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currentscreen[4] = line[9:]=="1"
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elif line.startswith("reflectY="):
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currentscreen[5] = line[9:]=="1"
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elif line.startswith("rotate="):
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currentscreen[6] = line[7:]
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elif line.startswith("redgamma="):
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currentscreen[7] = line[9:]
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elif line.startswith("greengamma="):
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currentscreen[8] = line[11:]
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elif line.startswith("bluegamma="):
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currentscreen[9] = line[10:]
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elif line.startswith("dpmsEnabled"):
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dpms_enabled = line.split("=")[1]
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elif line.startswith("dpmsSeconds"):
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dpms_seconds = int(line.split("=")[1])
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fhandle.close()
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break
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return (screens,dpi,dpms_enabled,dpms_seconds)
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############################################################################
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def main():
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(screens,dpi,dpms_enabled,dpms_seconds) = ReadDisplayConfigRC()
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if dpms_enabled:
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if dpms_enabled == "on":
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if not dpms_seconds:
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dpms_seconds = 900
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cmd = "xset dpms %i %i %i" % (dpms_seconds,dpms_seconds,dpms_seconds)
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os.system(cmd)
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else:
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cmd = "xset -dpms"
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os.system(cmd)
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if screens is not None:
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# Set the X server.
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try:
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xserver = xf86misc.XF86Server()
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if len(screens)!=0:
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for screen in screens:
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(id,width,height,refresh,reflectx,reflecty,rotate,redgamma,greengamma,bluegamma) = screen
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# Convert the stuff into RandR's rotation bitfield thingy.
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if rotate=="0":
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rotation = xf86misc.XF86Screen.RR_Rotate_0
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elif rotate=="90":
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rotation = xf86misc.XF86Screen.RR_Rotate_90
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elif rotate=="180":
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rotation = xf86misc.XF86Screen.RR_Rotate_180
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elif rotate=="270":
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rotation = xf86misc.XF86Screen.RR_Rotate_270
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if reflectx:
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rotation |= xf86misc.XF86Screen.RR_Reflect_X
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if reflecty:
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rotation |= xf86misc.XF86Screen.RR_Reflect_Y
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if id<len(xserver.getScreens()):
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xscreen = xserver.getScreens()[id]
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if xscreen.resolutionSupportAvailable():
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available_sizes = xscreen.getAvailableSizes()
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# Find the closest matching resolution
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best_score = 1000000
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best_size_id = 0
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for size_id in range(len(available_sizes)):
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size = available_sizes[size_id]
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score = abs(size[0]-width)+abs(size[1]-height)
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if score < best_score:
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best_size_id = size_id
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best_score = score
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# Now find the best refresh for this resolution
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best_score = 1000000
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best_refresh = 50
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for available_refresh in xscreen.getAvailableRefreshRates(best_size_id):
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score = abs(refresh-available_refresh)
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if score < best_score:
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best_refresh = available_refresh
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best_score = score
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# Mask out any unsupported rotations.
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rotation &= xscreen.getAvailableRotations()
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xscreen.setScreenConfigAndRate(best_size_id, rotation, best_refresh)
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# Restore the gamma settings.
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if redgamma is not None and greengamma is not None and bluegamma is not None:
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try:
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xscreen.setGamma( (float(redgamma), float(greengamma), float(bluegamma)) )
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except ValueError,e:
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pass
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FixXorgDPI(dpi)
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except xf86misc.XF86Error,err:
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print err
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return
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else:
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# Ensure that the xorgs virtual screen size matches the default resolution
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# of the server. Why does this matter? When Xorg starts up it reads its
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# config file chooses the first mode in the "modes" line of the active
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# Screen section and uses it as the virtual screen size and as the
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# screen resolution (ie 1024x768 resolution screen showing a 1024x768 gfx
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# buffer). But, this means that you can't use RandR to get to any higher
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# screen resolutions (ie 1280x1024) because Xorg requires that the virtual
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# screen size 'cover' the screen resolution being displayed.
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#
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# So, to get around this problem and make it possible for people to select
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# a lower resolution screen *and* still have the option later to use
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# RandR/displayconfig to switch to higher resolution, displayconfig
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# explicitly sets the virtual screen size in xorg.conf to the largest
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# resoluution that the monitor/gfx card can support. The down side to
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# this is that the X server and kdm get the correct resolution but the
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# wrong (virtual) screen size. The user can now scroll around on the
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# greater virtual screen. Kind of annoying for kdm, unacceptable once
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# the user has logged in.
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#
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# What we do now as the user's KDE session is being started up is check
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# what the real virtual screen size is meant to be (=same as the real
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# resolution being used) and then use the RandR extension to explicitly
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# set the correct resolution. This has the effect of changing the virtual
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# screeen size to what we really want. (RandR can change the virtual
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# screen size, thankfully)
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import displayconfigabstraction
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try:
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xserver = xf86misc.XF86Server()
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for xscreen in xserver.getScreens():
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if xscreen.resolutionSupportAvailable():
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mode_line = ixf86misc.XF86VidModeGetModeLine(xserver.getDisplay(),xscreen.getScreenId())
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hdisplay = mode_line[1]
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vdisplay = mode_line[5]
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live_refresh_rate = xscreen.getRefreshRate()
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try:
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(live_width,live_height,x,x) = xscreen.getAvailableSizes()[xscreen.getSizeID()]
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except IndexError, errmsg:
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print "IndexError:", errmsg, "in displayconfig-restore getting live screen size - trying screen 0."
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(live_width,live_height,x,x) = xscreen.getAvailableSizes()[0]
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if (hdisplay,vdisplay) != (live_width,live_height):
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# The screen resolution doesn't match the virtual screen size.
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screen_sizes = xscreen.getAvailableSizes()
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for size_id in range(len(screen_sizes)):
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screen_size = screen_sizes[size_id]
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if screen_size[0]==hdisplay and screen_size[1]==vdisplay:
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# Find the closest matching refresh rate.
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best_refresh = 0
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best_score = 1000000
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for rate in xscreen.getAvailableRefreshRates(size_id):
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score = abs(rate-live_refresh_rate)
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if score < best_score:
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best_refresh = rate
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best_score = score
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# Reset the screen mode and virtual screen size.
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xscreen.setScreenConfigAndRate(size_id,xscreen.getRotation(),best_refresh)
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break
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FixXorgDPI(dpi)
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except (xf86misc.XF86Error,TypeError),err:
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print err
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main()
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