Implementing a Standard Library
Components
I use the following for building up utility scripts.
$ ls -lR ~/lib/py /home/pharding/lib/py: total 4 drwxr-xr-x+ 1 pharding Users 0 Feb 20 11:44 performiq ./performiq: total 7 -rw-r--r-- 1 pharding Users 108 Feb 20 11:06 __init__.py -rw-r--r-- 1 pharding Users 23 Feb 20 10:52 CONSTANTS.py -rw-r--r-- 1 pharding Users 361 Feb 20 10:55 Enum.py -rw-r--r-- 1 pharding Users 2121 Feb 20 11:32 Logger.py -rw-r--r-- 1 pharding Users 2121 Feb 20 11:32 Timer.py
env | grep PYTHONPATH PYTHONPATH=/home/pharding/lib/py
__init__.py
$ cat __init__.py import CONSTANTS from CONSTANTS import VERSION from Enum import Enum from Logger import Logger from Timer import Timer
CONSTANTS.py
$ cat CONSTANTS.py VERSION = "1.0.0"
Enum.py
$ cat Enum.py
#==========================================================================
class Enum(set):
pass
#--------------------------------------------------------------------
def __getattr__(self, name):
if name in self:
return name
raise AttributeError
#==========================================================================
Logger.py
$ cat Logger.py
import os
import sys
import logging
#==========================================================================
class Logger:
logger = None
debug = False
@classmethod
def Info(cls, msg):
global debug_level, verbose_flg
if not cls.logger:
cls.Init()
cls.logger.info(' ' + msg)
if cls.debug: sys.stderr.write("[%s::INFO] %s\n" % (cls.name, msg))
#----------------------------------------------------------------------
@classmethod
def Error(cls, msg):
global debug_level, verbose_flg
if not cls.logger:
cls.Init()
cls.logger.error(msg)
if cls.debug: sys.stderr.write("[%s::ERROR] %s\n" % (cls.name, msg))
#----------------------------------------------------------------------
@classmethod
def Warning(cls, msg):
global debug_level, verbose_flg
if not cls.logger:
cls.Init()
cls.logger.warning('*****' + msg + '*****')
if cls.debug: sys.stderr.write("[%s::WARNING] %s\n" % (cls.name, msg))
#----------------------------------------------------------------------
@classmethod
def Init(cls, name='logger', log_dir='/c/temp', debug=False):
cls.debug = debug
cls.name = name
cls.pid = os.getpid()
if cls.debug: sys.stderr.write("[%s::Init] PID is %d\n" % (cls.name, cls.pid))
cls.log_file = '%s/%s.log' % (log_dir, name)
try:
cls.logger = logging.getLogger(name)
cls.hdlr = logging.FileHandler(cls.log_file)
cls.fmtr = logging.Formatter('%(asctime)s %(levelname)s %(message)s')
cls.hdlr.setFormatter(cls.fmtr)
cls.logger.addHandler(cls.hdlr)
cls.logger.setLevel(logging.INFO)
cls.logger.info("===== Started processing %s" % ('=' * 20))
cls.count = 0
except IOError, msg:
sys.stderr.write(cls.log_file + ': cannot open: ' + `msg` + '\n')
sys.exit(1)
#==========================================================================
Timer.py
#==========================================================================
class Timer:
t_reference = None
#----------------------------------------------------------------------
@classmethod
def init(cls):
return float(cls.get_reference_time(init=True)) * 0.001
#----------------------------------------------------------------------
@classmethod
def time(cls):
return float(cls.get_reference_time()) * 0.001
#----------------------------------------------------------------------
@classmethod
def get_reference_time(cls, init=False):
t_now = datetime.now()
if (flg):
cls.t_reference = t_now
t = 0
else:
t_delta = t_now - cls.t_reference
t = ((t_delta.seconds * 1000000) + t_delta.microseconds)/1000.0
return t
#----------------------------------------------------------------------
#==========================================================================
A Variant skel.py
This variant of my skel.py script uses the module.