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#!/usr/bin/env python3
#
# Parabola-eye is maintain by Aurélien DESBRIÈRES <aurelien@hackers.camp>
# it is a fork inspired from:
#
# Archey [version 0.3.0]
#
# Archey is a simple system information tool written in Python.
#
# Copyright 2010 Melik Manukyan <melik@archlinux.us>
#
# ASCII art by Brett Bohnenkamper <kittykatt@silverirc.com>
# Changes Jerome Launay <jerome@projet-libre.org>
# Fedora support by YeOK <yeok@henpen.org>
#
# Distributed under the terms of the GNU General Public License v3.
# See http://www.gnu.org/licenses/gpl.txt for the full license text.
# Import libraries
import os, sys, subprocess, optparse, re, linecache
from subprocess import Popen, PIPE
from optparse import OptionParser
from getpass import getuser
from time import ctime, sleep
#---------------Output---------------#
output = [
'User',
'Hostname',
'Distro',
'Kernel',
'Uptime',
'WindowManager',
'DesktopEnvironment',
'Shell',
'Terminal',
'Packages',
'CPU',
'RAM',
'Disk'
]
#---------------Dictionaries---------------#
colorDict = {
'Parabola GNU / Linux-libre': ['\x1b[0;34m', '\x1b[1;34m'],
'Ubuntu': ['\x1b[0;31m', '\x1b[1;31m', '\x1b[0;33m'],
'Debian': ['\x1b[0;31m', '\x1b[1;31m'],
'Mint': ['\x1b[0;32m', '\x1b[1;37m'],
'Crunchbang': ['\x1b[1;37m'],
'Fedora': ['\x1b[0;34m', '\x1b[1;37m'],
'Sensors': ['\x1b[0;31m', '\x1b[0;32m', '\x1b[0;33m'],
'Clear': ['\x1b[0m']
}
deDict = {
'gnome-session': 'GNOME',
'ksmserver': 'KDE',
'xfce4-session': 'Xfce',
'lxsession': 'LXDE'
}
wmDict = {
'awesome': 'Awesome',
'beryl': 'Beryl',
'blackbox': 'Blackbox',
'compiz': 'Compiz',
'dwm': 'DWM',
'enlightenment': 'Enlightenment',
'fluxbox': 'Fluxbox',
'fvwm': 'FVWM',
'i3': 'i3',
'icewm': 'IceWM',
'kwin': 'KWin',
'metacity': 'Metacity',
'musca': 'Musca',
'openbox': 'Openbox',
'pekwm': 'PekWM',
'ratpoison': 'ratpoison',
'scrotwm': 'ScrotWM',
'wmaker': 'Window Maker',
'wmfs': 'Wmfs',
'wmii': 'wmii',
'xfwm4': 'Xfwm',
'xmonad': 'xmonad'
}
logosDict = {'Parabola GNU / Linux-libre': '''{color[1]}
{color[1]} ## ### {results[1]}
{color[1]} ## ## ##### {results[2]}
{color[1]} ## ## ## ####### {results[3]}
{color[1]} # ## ## ## ######## {results[4]}
{color[1]} ### ## ## ## ####### {results[5]}
{color[1]} ##### ## ## ## ####### {results[6]}
{color[1]} ## ## ## ####### {results[7]}
{color[1]} ## ####### {results[8]}
{color[1]} ###### {results[9]}
{color[0]} ###### {results[10]}
{color[0]} ##### {results[11]}
{color[0]} ##### {results[12]}
{color[0]} #### {results[13]}
{color[0]} ### {results[14]}
{color[0]} ### {results[15]}
{color[0]} ## {results[16]}
{color[0]} # {reuslts[17]}
\x1b[0m'''
}
processes = str(subprocess.check_output(('ps', '-u', getuser(), '-o', 'comm',
'--no-headers')), encoding='utf8').rstrip('\n').split('\n')
#---------------Classes---------------#
class Output:
results = []
results.extend(['']*(13))
def __init__(self):
self.distro = self.__detectDistro()
def __detectDistro(self):
if os.path.exists('/etc/pacman.conf'):
return 'Parabola GNU / Linux-libre'
else:
sys.exit(1)
def append(self, display):
self.results.append('%s%s: %s%s' % (colorDict[self.distro][1], display.key, colorDict['Clear'][0], display.value))
def output(self):
print(logosDict[self.distro].format(color = colorDict[self.distro], results = self.results))
class User:
def __init__(self):
self.key = 'User'
self.value = os.getenv('USER')
class Hostname:
def __init__(self):
hostname = Popen(['uname', '-n'], stdout=PIPE).communicate()[0].decode('Utf-8').rstrip('\n')
self.key = 'Hostname'
self.value = hostname
class Distro:
def __init__(self):
if os.path.exists('/etc/pacman.conf'):
distro = 'Parabola GNU / Linux-libre'
self.key = 'Distro'
self.value = distro
class Kernel:
def __init__(self):
kernel = Popen(['uname', '-r'], stdout=PIPE).communicate()[0].decode('Utf-8').rstrip('\n')
self.key = 'Kernel'
self.value = kernel
class Uptime:
def __init__(self):
fuptime = int(open('/proc/uptime').read().split('.')[0])
day = int(fuptime / 86400)
fuptime = fuptime % 86400
hour = int(fuptime / 3600)
fuptime = fuptime % 3600
minute = int(fuptime / 60)
uptime = ''
if day == 1:
uptime += '%d day, ' % day
if day > 1:
uptime += '%d days, ' % day
uptime += '%d:%02d' % (hour, minute)
self.key = 'Uptime'
self.value = uptime
class WindowManager:
def __init__(self):
wm = ''
for key in wmDict.keys():
if key in processes:
wm = wmDict[key]
break
self.key = 'Window Manager'
self.value = wm
class DesktopEnvironment:
def __init__(self):
de = ''
for key in deDict.keys():
if key in processes:
wm = wmDict[key]
break
self.key = 'Desktop Environment'
self.value = de
class Shell:
def __init__(self):
self.key = 'Shell'
self.value = os.getenv('SHELL')
class Terminal:
def __init__(self):
self.key = 'Terminal'
self.value = os.getenv('TERM')
class Packages:
def __init__(self):
p1 = Popen(['pacman', '-Q'], stdout=PIPE).communicate()[0].decode("Utf-8")
packages = len(p1.rstrip('\n').split('\n'))
self.key = 'Packages'
self.value = packages
class CPU:
def __init__(self):
file = open('/proc/cpuinfo').readlines()
cpuinfo = re.sub(' +', ' ', file[4].replace('model name\t: ', '').rstrip('\n'))
output ('CPU', cpuinfo)
class RAM:
def __init__(self):
raminfo = Popen(['free', '-m'], stdout=PIPE).communicate()[0].decode('Utf-8').split('\n')
ram = ''.join(filter(re.compile('M').search, raminfo)).split()
used = int(ram[2]) - int(ram[5]) - int(ram[6])
usedpercent = ((float(used) / float(ram[1])) * 100)
if usedpercent <= 33:
ramdisplay = '%s%s MB %s/ %s MB' % (colorDict['Sensors'][2], used, colorDict['Clear'][0], ram[1])
if usedpercent > 33 and usedpercent < 67:
ramdisplay = '%s%s MB %s/ %s MB' % (colorDict['Sensors'][1], used, colorDict['Clear'][0], ram[1])
if usedpercent >= 67:
ramdisplay = '%s%s MB %s/ %s MB' % (colorDict['Sensors'][0], used, colorDict['Clear'][0], ram[1])
self.key = 'RAM'
self.value = ramdisplay
class Disk:
def __init__(self):
p1 = Popen(['df', '-Tlh', '--total', '-t', 'ext4', '-t', 'ext3', '-t', 'ext2', '-t', 'reiserfs', '-t', 'jfs', '-t', 'ntfs', '-t', 'fat32', '-t', 'btrfs', '-t', 'fuseblk'], stdout=PIPE).communicate()[0].decode("Utf-8")
total = p1.splitlines()[-1]
used = total.split()[3]
size = total.split()[2]
usedpercent = float(total.split()[5][:-1])
if usedpercent <= 33:
disk = '%s%s %s/ %s' % (colorDict['Sensors'][2], used, colorDict['Clear'][0], size)
if usedpercent > 33 and usedpercent < 67:
disk = '%s%s %s/ %s' % (colorDict['Sensors'][1], used, colorDict['Clear'][0], size)
if usedpercent >= 67:
disk = '%s%s %s/ %s' % (colorDict['Sensors'][0], used, colorDict['Clear'][0], size)
self.key = 'Disk'
self.value = disk
## TEST ## <<< TEMPORARY
out = Output()
out.append(Shell())
out.append(Packages())
out.append(Disk())
out.append(RAM())
out.append(Distro())
out.append(WindowManager())
#out.append(DesktopEnvirornment())
out.output()
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