import sys if __name__ == "__main__": sys.path.append ('kudzu') sys.path.append ('isys') import string import iutil import kudzu import isys import time import os from kbd import Keyboard def _(x): return x class XF86Config: def __init__ (self, mouse = None): self.setMouse(mouse) self.server = None self.vidCards = [] self.cardMan = None self.vidRam = None self.monEisa = None self.monName = None self.monHoriz = None self.monVert = None self.monID = None self.devID = None self.probed = 0 self.skip = 0 self.modes = { "8" : ["640x480"] } self.device = None self.keyRules = "xfree86" self.keyModel = "pc101" self.keyLayout = "us" kbd = Keyboard() if kbd.type == 'Sun': self.keyRules = "sun" self.keyModel = kbd.model self.keyLayout = kbd.layout self.keyVariant = "" self.keyOptions = "" def setKeyboard (self, rules, model, layout, variant, options): self.keyRules = rules self.keyModel = model self.keyLayout = layout self.keyVariant = variant self.keyOptions = options def setMouse(self, mouse): if mouse: (mouseProtocol, mouseEmulate, mouseDev) = mouse self.mouse = { "mouseDev" : "/dev/" + mouseDev, "mouseProto" : mouseProtocol } else: self.mouse = { "mouseDev" : "/dev/mouse", "mouseProto" : "PS/2" } def areaCompare (self, first, second): (sx1, sy1) = string.split (first, 'x') (sx2, sy2) = string.split (second, 'x') x1 = string.atoi (sx1) y1 = string.atoi (sy1) x2 = string.atoi (sx2) y2 = string.atoi (sy2) if ((x1 * y1) > (x2 * y2)): return -1 elif ((x1 * y1) < (x2 * y2)): return 1 return 0 def filterModesByMemory (self): if not self.vidRam: return if string.atoi(self.vidRam) >= 4096: self.modes["8"] = ["640x480", "800x600", "1024x768", "1152x864", "1280x1024", "1600x1200"] self.modes["16"] = ["640x480", "800x600", "1024x768", "1152x864", "1280x1024", "1600x1200"] self.modes["32"] = ["640x480", "800x600", "1024x768", "1152x864"] elif string.atoi(self.vidRam) >= 2048: self.modes["8"] = ["640x480", "800x600", "1024x768", "1152x864", "1280x1024"] self.modes["16"] = ["640x480", "800x600", "1024x768", "1152x864"] self.modes["32"] = ["640x480", "800x600"] elif string.atoi(self.vidRam) >= 1024: self.modes["8"] = ["640x480", "800x600", "1024x768", "1152x864"] self.modes["16"] = ["640x480", "800x600"] self.modes["32"] = ["640x480"] elif string.atoi(self.vidRam) >= 512: self.modes["8"] = ["640x480", "800x600"] self.modes["16"] = ["640x480"] self.modes["32"] = [] elif string.atoi(self.vidRam) >= 256: self.modes["8"] = ["640x480"] def cards (self, thecard = None): cards = {} db = open ('/usr/X11R6/lib/X11/Cards') lines = db.readlines () db.close () card = {} name = None for line in lines: line = string.strip (line) if not line and name: cards[name] = card card = {} name = None continue if line and line[0] == '#': continue if len (line) > 4 and line[0:4] == 'NAME': name = line[5:] info = string.splitfields (line, ' ') if card.has_key (info[0]): card[info[0]] = card[info[0]] + '\n' + (string.joinfields (info[1:], ' ')) else: card[info[0]] = string.joinfields (info[1:], ' ') if thecard: card = cards[thecard] # XXX set a max depth here to avoid infinite loops while card.has_key ("SEE"): card = cards[card["SEE"]] return card return cards def monitors (self, lines = None): monitors = {} if not lines: db = open ('/usr/X11R6/share/Xconfigurator/MonitorsDB') lines = db.readlines () db.close () found = 0 for line in lines: line = string.strip (line) if not line: continue if line and line[0] == '#': continue fields = string.split (line, ';') monitors [string.strip(fields[0])] = \ (string.strip(fields[2]), string.strip(fields[3])) return monitors def setMonitor (self, (monitor, (hrange, vrange))): self.monName = monitor self.monID = monitor self.monHoriz = hrange self.monVert = vrange def setVidcard (self, card): self.vidCards.append (card) if self.vidCards: self.devID = self.vidCards[0]["NAME"] self.server = self.vidCards[0]["SERVER"] def probe (self, probeMonitor = 1): if self.probed: return self.probed = 1 # PCI probe for video cards sections = {} cards = kudzu.probe (kudzu.CLASS_VIDEO, kudzu.BUS_UNSPEC, kudzu.PROBE_ALL); for card in cards: section = "" (device, server, descr) = card if len (self.vidCards) == 0: self.device = device if len (server) > 5 and server[0:5] == "Card:": self.vidCards.append (self.cards (server[5:])) if len (server) > 7 and server[0:7] == "Server:": info = { "NAME" : string.split (descr, '|')[1], "SERVER" : server[7:] } self.vidCards.append (info) if self.vidCards: self.devID = self.vidCards[0]["NAME"] self.server = self.vidCards[0]["SERVER"] # VESA probe for monitor/videoram, etc. if probeMonitor: try: probe = string.split (iutil.execWithCapture ("/usr/sbin/ddcprobe", ['ddcprobe']), '\n') for line in probe: if line and line[:9] == "OEM Name:": self.cardMan = string.strip (line[10:]) if line and line[:16] == "Memory installed": memory = string.split (line, '=') self.vidRam = string.strip (memory[2][:-2]) if line and line[:8] == "EISA ID:": self.monEisa = line[9:] self.monID = line[9:] if line and line[:6] == "\tName:": if not self.monName or len (self.monName) < len (line[7:]): self.monName = line[7:] if line and line[:15] == "\tTiming ranges:": ranges = string.split (line, ',') self.monHoriz = string.strip (string.split (ranges[0], '=')[1]) self.monVert = string.strip (string.split (ranges[1], '=')[1]) if self.vidCards and self.cardMan: self.vidCards[0]["VENDOR"] = self.cardMan except: pass if not self.vidRam and self.device: if self.server and len (self.server) >= 3 and self.server[0:3] == 'Sun': # fbconProbe gives bogus video RAM reports on SBUS and UPA servers return try: self.vidRam = "%d" % isys.fbconProbe("/dev/" + self.device) except: pass def probeReport (self): probe = "" if self.vidCards: probe = probe + _("Video Card") + ": " + self.vidCards[0]["NAME"] + "\n" if self.vidRam: probe = probe + "\t" + _("Video Ram") + ": " + self.vidRam + " kb\n" if self.server: probe = probe + "\t" + _("X server") + ": " + self.server + "\n" if not self.server: probe = probe + "\t" + _("Unable to detect video card") probe = probe + "\n" if self.monName: probe = probe + _("Monitor") + ": " + self.monName + "\n" elif self.monEisa: probe = probe + _("Monitor") + ": " + _("Plug and Play Monitor") + "\n" if self.monHoriz: probe = probe + "\t" + _("Horizontal frequency range") + ": " + self.monHoriz + " kHz\n" if self.monHoriz: probe = probe + "\t" + _("Vertical frequency range") + ": " + self.monVert + " Hz\n" return probe def write (self, path): config = open (path, 'w') config.write (self.preludeSection ()) config.write (self.keyboardSection ()) config.write (self.mouseSection ()) config.write (self.monitorSection ()) config.write (self.deviceSection ()) config.write (self.screenSection ()) config.close () def test (self): config = open ('/tmp/XF86Config.test', 'w') config.write ( """ Section "Files" RgbPath "/usr/X11R6/lib/X11/rgb" FontPath "/usr/X11R6/lib/X11/fonts/misc/" FontPath "/usr/X11R6/lib/X11/fonts/Type1/" FontPath "/usr/X11R6/lib/X11/fonts/Speedo/" FontPath "/usr/X11R6/lib/X11/fonts/75dpi/" FontPath "/usr/X11R6/lib/X11/fonts/100dpi/" EndSection Section "ServerFlags" EndSection """) config.write (self.keyboardSection ()) config.write ( """ Section "Pointer" Protocol "%(mouseProto)s" Device "%(mouseDev)s" Emulate3Buttons Emulate3Timeout 50 EndSection """ % self.mouse) config.write (self.monitorSection ()) config.write (self.deviceSection ()) config.write (self.screenSection ()) config.close () serverPath = "/usr/X11R6/bin/XF86_" + self.server server = os.fork() if (not server): os.execv(serverPath, ["XF86-test", ':9', '-xf86config', '/tmp/XF86Config.test', 'vt6']) time.sleep (1) ## pid, status = os.waitpid (server, os.WNOHANG) ## if not pid: ## raise RuntimeError, "X server failed to start" child = os.fork() if (not child): os.environ["DISPLAY"] = ":9" os.execv("/usr/X11R6/bin/Xtest", ["Xtest", "--nostart", "--norunlevel"]) else: pid, status = os.waitpid(child, 0) os.kill (server, 15) os.waitpid(server, 0) if not os.WIFEXITED (status) or os.WEXITSTATUS (status): if os.WEXITSTATUS (status) not in [ 0, 1, 2 ]: raise RuntimeError, "X test failed %d" % (status,) return def preludeSection (self): return """ # File generated by anaconda. # ********************************************************************** # Refer to the XF86Config(4/5) man page for details about the format of # this file. # ********************************************************************** # ********************************************************************** # Files section. This allows default font and rgb paths to be set # ********************************************************************** Section "Files" # The location of the RGB database. Note, this is the name of the # file minus the extension (like ".txt" or ".db"). There is normally # no need to change the default. RgbPath "/usr/X11R6/lib/X11/rgb" # Multiple FontPath entries are allowed (they are concatenated together) # By default, Red Hat 6.0 and later now use a font server independent of # the X server to render fonts. FontPath "unix/:-1" EndSection # ********************************************************************** # Server flags section. # ********************************************************************** Section "ServerFlags" # Uncomment this to cause a core dump at the spot where a signal is # received. This may leave the console in an unusable state, but may # provide a better stack trace in the core dump to aid in debugging # NoTrapSignals # Uncomment this to disable the server abort sequence # This allows clients to receive this key event. # DontZap # Uncomment this to disable the / mode switching # sequences. This allows clients to receive these key events. # DontZoom EndSection """ def mouseSection (self): return """ # ********************************************************************** # Pointer section # ********************************************************************** Section "Pointer" Protocol "%(mouseProto)s" Device "/dev/mouse" # When using XQUEUE, comment out the above two lines, and uncomment # the following line. # Protocol "Xqueue" # Baudrate and SampleRate are only for some Logitech mice # BaudRate 9600 # SampleRate 150 # Emulate3Buttons is an option for 2-button Microsoft mice # Emulate3Timeout is the timeout in milliseconds (default is 50ms) Emulate3Buttons Emulate3Timeout 50 # ChordMiddle is an option for some 3-button Logitech mice # ChordMiddle EndSection """ % self.mouse def keyboardSection (self): string = """ # ********************************************************************** # Keyboard section # ********************************************************************** Section "Keyboard" Protocol "Standard" # when using XQUEUE, comment out the above line, and uncomment the # following line # Protocol "Xqueue" AutoRepeat 500 5 # Let the server do the NumLock processing. This should only be # required when using pre-R6 clients # ServerNumLock # Specify which keyboard LEDs can be user-controlled (eg, with xset(1)) # Xleds 1 2 3 # To set the LeftAlt to Meta, RightAlt key to ModeShift, # RightCtl key to Compose, and ScrollLock key to ModeLock: LeftAlt Meta RightAlt Meta ScrollLock Compose RightCtl Control # To disable the XKEYBOARD extension, uncomment XkbDisable. # XkbDisable # To customise the XKB settings to suit your keyboard, modify the # lines below (which are the defaults). For example, for a non-U.S. # keyboard, you will probably want to use: # XkbModel "pc102" # If you have a US Microsoft Natural keyboard, you can use: # XkbModel "microsoft" # # Then to change the language, change the Layout setting. # For example, a german layout can be obtained with: # XkbLayout "de" # or: # XkbLayout "de" # XkbVariant "nodeadkeys" # # If you'd like to switch the positions of your capslock and # control keys, use: # XkbOptions "ctrl:nocaps" """ for (tag, value) in (("XkbRules", self.keyRules), ("XkbModel", self.keyModel), ("XkbLayout", self.keyLayout), ("XkbVariant", self.keyVariant), ("XkbOptions", self.keyOptions)): if value: string = string + ' %s "%s"\n' % (tag, value) string = string + "EndSection\n" return string def monitorSection (self): info = {} if self.monEisa: info["EISA"] = self.monEisa elif self.monID: info["EISA"] = self.monID else: info["EISA"] = "Generic Monitor" self.monID = info["EISA"] if self.monVert: info["VERT"] = self.monVert else: info["VERT"] = "60" if self.monHoriz: info["HORIZ"] = self.monHoriz else: info["HORIZ"] = "31.5" return """ # ********************************************************************** # Monitor section # ********************************************************************** # Any number of monitor sections may be present Section "Monitor" Identifier "Generic Monitor" VendorName "Unknown" ModelName "Unknown" HorizSync 31.5 VertRefresh 60 ModeLine "640x480" 25.175 640 664 760 800 480 491 493 525 EndSection Section "Monitor" Identifier "%(EISA)s" VendorName "Unknown" ModelName "Unknown" # HorizSync is in kHz unless units are specified. # HorizSync may be a comma separated list of discrete values, or a # comma separated list of ranges of values. # NOTE: THE VALUES HERE ARE EXAMPLES ONLY. REFER TO YOUR MONITOR'S # USER MANUAL FOR THE CORRECT NUMBERS. HorizSync %(HORIZ)s # VertRefresh is in Hz unless units are specified. # VertRefresh may be a comma separated list of discrete values, or a # comma separated list of ranges of values. # NOTE: THE VALUES HERE ARE EXAMPLES ONLY. REFER TO YOUR MONITOR'S # USER MANUAL FOR THE CORRECT NUMBERS. VertRefresh %(VERT)s # Modes can be specified in two formats. A compact one-line format, or # a multi-line format. # These two are equivalent # ModeLine "1024x768i" 45 1024 1048 1208 1264 768 776 784 817 Interlace # Mode "1024x768i" # DotClock 45 # HTimings 1024 1048 1208 1264 # VTimings 768 776 784 817 # Flags "Interlace" # EndMode # This is a set of standard mode timings. Modes that are out of monitor spec # are automatically deleted by the server (provided the HorizSync and # VertRefresh lines are correct), so there's no immediate need to # delete mode timings (unless particular mode timings don't work on your # monitor). With these modes, the best standard mode that your monitor # and video card can support for a given resolution is automatically # used. # Low-res Doublescan modes # If your chipset does not support doublescan, you get a 'squashed' # resolution like 320x400. # --320x200-- # 320x200 @ 70 Hz, 31.5 kHz hsync, 8:5 aspect ratio Modeline "320x200" 12.588 320 336 384 400 200 204 205 225 Doublescan # 320x240 @ 60 Hz, 31.5 kHz hsync, 4:3 aspect ratio Modeline "320x240" 12.588 320 336 384 400 240 245 246 262 Doublescan # 320x240 @ 72 Hz, 36.5 kHz hsync Modeline "320x240" 15.750 320 336 384 400 240 244 246 262 Doublescan # --400x300-- # 400x300 @ 56 Hz, 35.2 kHz hsync, 4:3 aspect ratio ModeLine "400x300" 18 400 416 448 512 300 301 302 312 Doublescan # 400x300 @ 60 Hz, 37.8 kHz hsync Modeline "400x300" 20 400 416 480 528 300 301 303 314 Doublescan # 400x300 @ 72 Hz, 48.0 kHz hsync Modeline "400x300" 25 400 424 488 520 300 319 322 333 Doublescan # 480x300 @ 56 Hz, 35.2 kHz hsync, 8:5 aspect ratio ModeLine "480x300" 21.656 480 496 536 616 300 301 302 312 Doublescan # 480x300 @ 60 Hz, 37.8 kHz hsync Modeline "480x300" 23.890 480 496 576 632 300 301 303 314 Doublescan # 480x300 @ 63 Hz, 39.6 kHz hsync Modeline "480x300" 25 480 496 576 632 300 301 303 314 Doublescan # 480x300 @ 72 Hz, 48.0 kHz hsync Modeline "480x300" 29.952 480 504 584 624 300 319 322 333 Doublescan # Normal video modes # -- 512x384 # 512x384 @ 78 Hz, 31.50 kHz hsync Modeline "512x384" 20.160 512 528 592 640 384 385 388 404 -HSync -VSync # 512x384 @ 85 Hz, 34.38 kHz hsync Modeline "512x384" 22 512 528 592 640 384 385 388 404 -HSync -VSync # -- 640x400 -- # 640x400 @ 70 Hz, 31.5 kHz hsync Modeline "640x400" 25.175 640 664 760 800 400 409 411 450 # 640x400 @ 85 Hz, 37.86 kHz hsync Modeline "640x400" 31.5 640 672 736 832 400 401 404 445 -HSync +VSync # --- 640x480 --- # 640x480 @ 60 Hz, 31.5 kHz hsync Modeline "640x480" 25.175 640 664 760 800 480 491 493 525 # 640x480 @ 72 Hz, 36.5 kHz hsync Modeline "640x480" 31.5 640 680 720 864 480 488 491 521 # 640x480 @ 75 Hz, 37.50 kHz hsync ModeLine "640x480" 31.5 640 656 720 840 480 481 484 500 -HSync -VSync # 640x480 @ 85 Hz, 43.27 kHz hsync Modeline "640x480" 36 640 696 752 832 480 481 484 509 -HSync -VSync # 640x480 @ 100 Hz, 53.01 kHz hsync Modeline "640x480" 45.8 640 672 768 864 480 488 494 530 -HSync -VSync # --- 800x600 --- # 800x600 @ 56 Hz, 35.15 kHz hsync ModeLine "800x600" 36 800 824 896 1024 600 601 603 625 # 800x600 @ 60 Hz, 37.8 kHz hsync Modeline "800x600" 40 800 840 968 1056 600 601 605 628 +hsync +vsync # 800x600 @ 72 Hz, 48.0 kHz hsync Modeline "800x600" 50 800 856 976 1040 600 637 643 666 +hsync +vsync # 800x600 @ 85 Hz, 55.84 kHz hsync Modeline "800x600" 60.75 800 864 928 1088 600 616 621 657 -HSync -VSync # 800x600 @ 100 Hz, 64.02 kHz hsync Modeline "800x600" 69.65 800 864 928 1088 600 604 610 640 -HSync -VSync # --- 1024x768 --- # 1024x768 @ 60 Hz, 48.4 kHz hsync Modeline "1024x768" 65 1024 1032 1176 1344 768 771 777 806 -hsync -vsync # 1024x768 @ 87 Hz interlaced, 35.5 kHz hsync Modeline "1024x768" 44.9 1024 1048 1208 1264 768 776 784 817 Interlace # 1024x768 @ 70 Hz, 56.5 kHz hsync Modeline "1024x768" 75 1024 1048 1184 1328 768 771 777 806 -hsync -vsync # 1024x768 @ 76 Hz, 62.5 kHz hsync Modeline "1024x768" 85 1024 1032 1152 1360 768 784 787 823 # 1024x768 @ 85 Hz, 70.24 kHz hsync Modeline "1024x768" 98.9 1024 1056 1216 1408 768 782 788 822 -HSync -VSync # 1024x768 @ 100Hz, 80.21 kHz hsync Modeline "1024x768" 115.5 1024 1056 1248 1440 768 771 781 802 -HSync -VSync # --- 1152x864 --- # 1152x864 @ 60 Hz, 53.5 kHz hsync Modeline "1152x864" 89.9 1152 1216 1472 1680 864 868 876 892 -HSync -VSync # 1152x864 @ 70 Hz, 62.4 kHz hsync Modeline "1152x864" 92 1152 1208 1368 1474 864 865 875 895 # 1152x864 @ 78 Hz, 70.8 kHz hsync Modeline "1152x864" 110 1152 1240 1324 1552 864 864 876 908 # 1152x864 @ 84 Hz, 76.0 kHz hsync Modeline "1152x864" 135 1152 1464 1592 1776 864 864 876 908 # 1152x864 @ 89 Hz interlaced, 44 kHz hsync ModeLine "1152x864" 65 1152 1168 1384 1480 864 865 875 985 Interlace # 1152x864 @ 100 Hz, 89.62 kHz hsync Modeline "1152x864" 137.65 1152 1184 1312 1536 864 866 885 902 -HSync -VSync # -- 1280x1024 -- # 1280x1024 @ 61 Hz, 64.2 kHz hsync Modeline "1280x1024" 110 1280 1328 1512 1712 1024 1025 1028 1054 # 1280x1024 @ 70 Hz, 74.59 kHz hsync Modeline "1280x1024" 126.5 1280 1312 1472 1696 1024 1032 1040 1068 -HSync -VSync # 1280x1024 @ 74 Hz, 78.85 kHz hsync Modeline "1280x1024" 135 1280 1312 1456 1712 1024 1027 1030 1064 # 1280x1024 @ 76 Hz, 81.13 kHz hsync Modeline "1280x1024" 135 1280 1312 1416 1664 1024 1027 1030 1064 # 1280x1024 @ 85 Hz, 91.15 kHz hsync Modeline "1280x1024" 157.5 1280 1344 1504 1728 1024 1025 1028 1072 +HSync +VSync # 1280x1024 @ 87 Hz interlaced, 51 kHz hsync Modeline "1280x1024" 80 1280 1296 1512 1568 1024 1025 1037 1165 Interlace # 1280x1024 @ 100 Hz, 107.16 kHz hsync Modeline "1280x1024" 181.75 1280 1312 1440 1696 1024 1031 1046 1072 -HSync -VSync # -- 1600x1200 -- # 1600x1200 @ 60Hz, 75.00 kHz hsync Modeline "1600x1200" 162 1600 1664 1856 2160 1200 1201 1204 1250 +HSync +VSync # 1600x1200 @ 70 Hz, 87.50 kHz hsync Modeline "1600x1200" 189 1600 1664 1856 2160 1200 1201 1204 1250 -HSync -VSync # 1600x1200 @ 75 Hz, 93.75 kHz hsync Modeline "1600x1200" 202.5 1600 1664 1856 2160 1200 1201 1204 1250 +HSync +VSync # 1600x1200 @ 85 Hz, 105.77 kHz hsync Modeline "1600x1200" 220 1600 1616 1808 2080 1200 1204 1207 1244 +HSync +VSync # -- 1800x1400 -- # 1800x1440 @ 64Hz, 96.15 kHz hsync ModeLine "1800X1440" 230 1800 1896 2088 2392 1440 1441 1444 1490 +HSync +VSync # 1800x1440 @ 70Hz, 104.52 kHz hsync ModeLine "1800X1440" 250 1800 1896 2088 2392 1440 1441 1444 1490 +HSync +VSync EndSection """ % info def deviceSection (self): section = """ # ********************************************************************** # Graphics device section # ********************************************************************** Section "Device" Identifier "Generic VGA Card" VendorName "Unknown" BoardName "Unknown" Chipset "generic" EndSection """ for card in self.vidCards: section = section + """ Section "Device" Identifier "%(NAME)s" """ % card if card.has_key ("VENDOR"): section = section + ' VendorName "%(VENDOR)s"\n' % card if card.has_key ("BOARDNAME"): section = section + ' BoardName "%(BOARD)s"\n' % card if card.has_key ("RAMDAC"): section = section + ' Ramdac "%(RAMDAC)s"\n' % card if card.has_key ("LINE"): section = section + card["LINE"] + "\n" if self.vidRam: section = section + ' VideoRam %s\n' % (self.vidRam,) section = section + "EndSection\n" return section def screenSection (self): info = { "DEVICE" : self.devID, "MONITOR" : self.monID } for (depth, modes) in self.modes.items (): modes.sort (self.areaCompare) section = """ # ********************************************************************** # Screen section # ********************************************************************** # The kernel framebuffer server Section "Screen" Driver "fbdev" Device "Generic VGA Card" Monitor "%(MONITOR)s" Subsection "Display" # Depth 16 Modes "default" EndSubsection EndSection # The 16-color VGA server Section "Screen" Driver "vga16" Device "Generic VGA Card" Monitor "%(MONITOR)s" Subsection "Display" Modes "640x480" "800x600" ViewPort 0 0 EndSubsection EndSection # The Mono server Section "Screen" Driver "vga2" Device "Generic VGA Card" Monitor "%(MONITOR)s" Subsection "Display" Modes "640x480" "800x600" ViewPort 0 0 EndSubsection EndSection """ % info if self.devID: for driver in [ "svga", "accel" ]: info["DRIVER"] = driver section = section + """ # The %(DRIVER)s server Section "Screen" Driver "%(DRIVER)s" Device "%(DEVICE)s" Monitor "%(MONITOR)s" """ % info for depth in self.modes.keys (): if not self.modes[depth]: continue section = section + """ Subsection "Display" Depth %s Modes """ % depth for res in self.modes[depth]: section = section + '"' + res + '" ' section = section + """ ViewPort 0 0 EndSubsection """ section = section + "EndSection\n" return section if __name__ == "__main__": sys.path.append ("kudzu") x = XF86Config () print x.cards ("ATI Mach64 3D RAGE II") x.probe () # sys.exit (0) x.filterModesByMemory () print x.preludeSection () print x.keyboardSection () print x.mouseSection () print x.monitorSection () print x.deviceSection () # x.modes["8"] = [ "640x480" ] # x.modes["16"] = [ "640x480" ] # x.modes["32"] = [ "640x480" ] print x.screenSection ()