634 lines
25 KiB
Python
634 lines
25 KiB
Python
# -*- coding: utf-8 -*-
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# ------------------------------------------------------------------------------
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# Appy is a framework for building applications in the Python language.
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# Copyright (C) 2007 Gaetan Delannay
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# This program is free software; you can redistribute it and/or
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# modify it under the terms of the GNU General Public License
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# as published by the Free Software Foundation; either version 2
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# of the License, or (at your option) any later version.
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301,USA.
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# ------------------------------------------------------------------------------
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import os, os.path, re, time, sys, traceback, unicodedata, shutil, mimetypes
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sequenceTypes = (list, tuple)
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# ------------------------------------------------------------------------------
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class FolderDeleter:
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@staticmethod
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def delete(dirName):
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'''Recursively deletes p_dirName.'''
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dirName = os.path.abspath(dirName)
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for root, dirs, files in os.walk(dirName, topdown=False):
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for name in files:
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os.remove(os.path.join(root, name))
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for name in dirs:
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os.rmdir(os.path.join(root, name))
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os.rmdir(dirName)
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@staticmethod
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def deleteEmpty(dirName):
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'''Deletes p_dirName and its parent dirs if they are empty.'''
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while True:
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try:
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if not os.listdir(dirName):
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os.rmdir(dirName)
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dirName = os.path.dirname(dirName)
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else:
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break
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except OSError, oe:
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break
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# ------------------------------------------------------------------------------
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extsToClean = ('.pyc', '.pyo', '.fsz', '.deltafsz', '.dat', '.log')
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def cleanFolder(folder, exts=extsToClean, folders=(), verbose=False):
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'''This function allows to remove, in p_folder and subfolders, any file
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whose extension is in p_exts, and any folder whose name is in
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p_folders.'''
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if verbose: print('Cleaning folder %s...' % folder)
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# Remove files with an extension listed in p_exts
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if exts:
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for root, dirs, files in os.walk(folder):
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for fileName in files:
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ext = os.path.splitext(fileName)[1]
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if (ext in exts) or ext.endswith('~'):
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fileToRemove = os.path.join(root, fileName)
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if verbose: print('Removing file %s...' % fileToRemove)
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os.remove(fileToRemove)
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# Remove folders whose names are in p_folders.
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if folders:
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for root, dirs, files in os.walk(folder):
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for folderName in dirs:
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if folderName in folders:
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toDelete = os.path.join(root, folderName)
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if verbose: print('Removing folder %s...' % toDelete)
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FolderDeleter.delete(toDelete)
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# ------------------------------------------------------------------------------
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def resolvePath(path):
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'''p_path is a file path that can contain occurences of "." and "..". This
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function resolves them and procuces a minimal path.'''
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res = []
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for elem in path.split(os.sep):
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if elem == '.': pass
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elif elem == '..': res.pop()
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else: res.append(elem)
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return os.sep.join(res)
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# ------------------------------------------------------------------------------
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def copyFolder(source, dest, cleanDest=False):
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'''Copies the content of folder p_source to folder p_dest. p_dest is
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created, with intermediary subfolders if required. If p_cleanDest is
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True, it removes completely p_dest if it existed. Else, content of
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p_source will be added to possibly existing content in p_dest, excepted
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if file names corresponds. In this case, file in p_source will overwrite
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file in p_dest.'''
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dest = os.path.abspath(dest)
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# Delete the dest folder if required
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if os.path.exists(dest) and cleanDest:
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FolderDeleter.delete(dest)
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# Create the dest folder if it does not exist
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if not os.path.exists(dest):
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os.makedirs(dest)
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# Copy the content of p_source to p_dest.
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for name in os.listdir(source):
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sourceName = os.path.join(source, name)
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destName = os.path.join(dest, name)
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if os.path.isfile(sourceName):
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# Copy a single file
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shutil.copy(sourceName, destName)
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elif os.path.isdir(sourceName):
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# Copy a subfolder (recursively)
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copyFolder(sourceName, destName)
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# ------------------------------------------------------------------------------
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def encodeData(data, encoding=None):
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'''Applies some p_encoding to string p_data, but only if an p_encoding is
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specified.'''
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if not encoding: return data
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return data.encode(encoding)
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# ------------------------------------------------------------------------------
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def copyData(data, target, targetMethod, type='string', encoding=None,
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chunkSize=1024):
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'''Copies p_data to a p_target, using p_targetMethod. For example, it copies
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p_data which is a string containing the binary content of a file, to
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p_target, which can be a HTTP connection or a file object.
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p_targetMethod can be "write" (files) or "send" (HTTP connections) or ...
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p_type can be "string", "file" or "zope". In the latter case it is an
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instance of OFS.Image.File. If p_type is "file", one may, in p_chunkSize,
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specify the amount of bytes transmitted at a time.
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If an p_encoding is specified, it is applied on p_data before copying.
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Note that if the p_target is a Python file, it must be opened in a way
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that is compatible with the content of p_data, ie file('myFile.doc','wb')
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if content is binary.'''
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dump = getattr(target, targetMethod)
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if not type or (type == 'string'): dump(encodeData(data, encoding))
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elif type == 'file':
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while True:
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chunk = data.read(chunkSize)
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if not chunk: break
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dump(encodeData(chunk, encoding))
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elif type == 'zope':
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# A OFS.Image.File instance can be split into several chunks
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if isinstance(data.data, basestring): # One chunk
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dump(encodeData(data.data, encoding))
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else:
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# Several chunks
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data = data.data
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while data is not None:
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dump(encodeData(data.data, encoding))
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data = data.next
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# ------------------------------------------------------------------------------
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def splitList(l, sub):
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'''Returns a list that was build from list p_l whose elements were
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re-grouped into sub-lists of p_sub elements.
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For example, if l = [1,2,3,4,5] and sub = 3, the method returns
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[ [1,2,3], [4,5] ].'''
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res = []
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i = -1
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for elem in l:
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i += 1
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if (i % sub) == 0:
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# A new sub-list must be created
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res.append([elem])
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else:
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res[-1].append(elem)
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return res
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# ------------------------------------------------------------------------------
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class Traceback:
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'''Dumps the last traceback into a string.'''
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def get():
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res = ''
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excType, excValue, tb = sys.exc_info()
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tbLines = traceback.format_tb(tb)
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for tbLine in tbLines:
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res += ' %s' % tbLine
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res += ' %s: %s' % (str(excType), str(excValue))
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return res
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get = staticmethod(get)
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# ------------------------------------------------------------------------------
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def getOsTempFolder():
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tmp = '/tmp'
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if os.path.exists(tmp) and os.path.isdir(tmp):
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res = tmp
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elif os.environ.has_key('TMP'):
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res = os.environ['TMP']
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elif os.environ.has_key('TEMP'):
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res = os.environ['TEMP']
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else:
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raise "Sorry, I can't find a temp folder on your machine."
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return res
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def getTempFileName(prefix='', extension=''):
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'''Returns the absolute path to a unique file name in the OS temp folder.
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The caller will then be able to create a file with this name.
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A p_prefix to this file can be provided. If an p_extension is provided,
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it will be appended to the name. Both dotted and not dotted versions
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of p_extension are allowed (ie, ".pdf" or "pdf").'''
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res = '%s/%s_%f' % (getOsTempFolder(), prefix, time.time())
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if extension:
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if extension.startswith('.'): res += extension
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else: res += '.' + extension
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return res
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# ------------------------------------------------------------------------------
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def executeCommand(cmd):
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'''Executes command p_cmd and returns the content of its stderr.'''
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childStdIn, childStdOut, childStdErr = os.popen3(cmd)
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res = childStdErr.read()
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childStdIn.close(); childStdOut.close(); childStdErr.close()
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return res
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# ------------------------------------------------------------------------------
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charsIgnore = u'.,:;*+=~?%^\'’"<>{}[]|\t\\°-'
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fileNameIgnore = charsIgnore + u' $£€/'
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extractIgnore = charsIgnore + '()'
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alphaRex = re.compile('[a-zA-Z]')
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alphanumRex = re.compile('[a-zA-Z0-9]')
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def normalizeString(s, usage='fileName'):
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'''Returns a version of string p_s whose special chars (like accents) have
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been replaced with normal chars. Moreover, if p_usage is:
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* fileName: it removes any char that can't be part of a file name;
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* alphanum: it removes any non-alphanumeric char;
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* alpha: it removes any non-letter char.
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'''
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strNeeded = isinstance(s, str)
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# We work in unicode. Convert p_s to unicode if not unicode.
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if isinstance(s, str):
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try:
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s = s.decode('utf-8')
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except UnicodeDecodeError:
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# Another encoding may be in use
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s = s.decode('latin-1')
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elif not isinstance(s, unicode): s = unicode(s)
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# For extracted text, replace any unwanted char with a blank
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if usage == 'extractedText':
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res = u''
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for char in s:
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if char not in extractIgnore: res += char
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else: res += ' '
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s = res
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# Standardize special chars like accents
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s = unicodedata.normalize('NFKD', s).encode('ascii', 'ignore')
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# Remove any other char, depending on p_usage
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if usage == 'fileName':
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# Remove any char that can't be found within a file name under Windows
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# or that could lead to problems with LibreOffice.
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res = ''
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for char in s:
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if char not in fileNameIgnore: res += char
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elif usage.startswith('alpha'):
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exec 'rex = %sRex' % usage
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res = ''
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for char in s:
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if rex.match(char): res += char
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elif usage == 'noAccents':
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res = s
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else:
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res = s
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# Re-code the result as a str if a str was given
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if strNeeded: res = res.encode('utf-8')
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return res
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def normalizeText(s):
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'''Normalizes p_s: remove special chars, lowerizes it, etc, for indexing
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purposes.'''
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return normalizeString(s, usage='extractedText').strip().lower()
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def keepDigits(s):
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'''Returns string p_s whose non-number chars have been removed.'''
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if s is None: return s
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res = ''
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for c in s:
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if c.isdigit(): res += c
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return res
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def getStringDict(d):
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'''Gets the string literal corresponding to dict p_d.'''
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res = []
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for k, v in d.iteritems():
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if type(v) not in sequenceTypes:
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value = "'%s':'%s'" % (k, v.replace("'", "\\'"))
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else:
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value = "'%s':%s" % (k, v)
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res.append(value)
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return '{%s}' % ','.join(res)
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def stretchText(s, pattern, char=' '):
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'''Inserts occurrences of p_char within p_s according to p_pattern.
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Example: stretchText("475123456", (3,2,2,2)) returns '475 12 34 56'.'''
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res = ''
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i = 0
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for nb in pattern:
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j = 0
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while j < nb:
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res += s[i+j]
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j += 1
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res += char
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i += nb
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return res
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# ------------------------------------------------------------------------------
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def formatNumber(n, sep=',', precision=2, tsep=' '):
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'''Returns a string representation of number p_n, which can be a float
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or integer. p_sep is the decimal separator to use. p_precision is the
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number of digits to keep in the decimal part for producing a nice rounded
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string representation. p_tsep is the "thousands" separator.'''
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if n == None: return ''
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# Manage precision
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if precision == None:
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res = str(n)
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else:
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format = '%%.%df' % precision
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res = format % n
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# Use the correct decimal separator
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res = res.replace('.', sep)
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# Insert p_tsep every 3 chars in the integer part of the number
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splitted = res.split(sep)
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res = ''
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if len(splitted[0]) < 4: res = splitted[0]
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else:
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i = len(splitted[0])-1
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j = 0
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while i >= 0:
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j += 1
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res = splitted[0][i] + res
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if (j % 3) == 0:
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res = tsep + res
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i -= 1
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# Add the decimal part if not 0
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if len(splitted) > 1:
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try:
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decPart = int(splitted[1])
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if decPart != 0:
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res += sep + splitted[1]
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except ValueError:
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# This exception may occur when the float value has an "exp"
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# part, like in this example: 4.345e-05
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res += sep + splitted[1]
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return res
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# ------------------------------------------------------------------------------
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def lower(s):
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'''French-accents-aware variant of string.lower.'''
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isUnicode = isinstance(s, unicode)
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if not isUnicode: s = s.decode('utf-8')
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res = s.lower()
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if not isUnicode: res = res.encode('utf-8')
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return res
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def upper(s):
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'''French-accents-aware variant of string.upper.'''
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isUnicode = isinstance(s, unicode)
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if not isUnicode: s = s.decode('utf-8')
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res = s.upper()
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if not isUnicode: res = res.encode('utf-8')
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return res
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# ------------------------------------------------------------------------------
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typeLetters = {'b': bool, 'i': int, 'j': long, 'f':float, 's':str, 'u':unicode,
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'l': list, 'd': dict}
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caExts = {'py': ('.py', '.vpy', '.cpy'), 'xml': ('.pt', '.cpt', '.xml')}
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# ------------------------------------------------------------------------------
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class CodeAnalysis:
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'''This class holds information about some code analysis (line counts) that
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spans some folder hierarchy.'''
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def __init__(self, name):
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self.name = name # Let's give a name for the analysis
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self.numberOfFiles = 0 # The total number of analysed files
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self.emptyLines = 0 # The number of empty lines within those files
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self.commentLines = 0 # The number of comment lines
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# A code line is defined as anything that is not an empty or comment
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# line.
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self.codeLines = 0
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def numberOfLines(self):
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'''Computes the total number of lines within analysed files.'''
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return self.emptyLines + self.commentLines + self.codeLines
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def analyseXmlFile(self, theFile):
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'''Analyses the XML file named p_fileName.'''
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inDoc = False
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for line in theFile:
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stripped = line.strip()
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# Manage a comment
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if not inDoc and ((line.find('<!--') != -1) or \
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(line.find('<tal:comment ') != -1)):
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inDoc = True
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if inDoc:
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self.commentLines += 1
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if (line.find('-->') != -1) or \
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(line.find('</tal:comment>') != -1):
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inDoc = False
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continue
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# Manage an empty line
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if not stripped:
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self.emptyLines += 1
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else:
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self.codeLines += 1
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docSeps = ('"""', "'''")
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def isPythonDoc(self, line, start, isStart=False):
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'''Returns True if we find, in p_line, the start of a docstring (if
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p_start is True) or the end of a docstring (if p_start is False).
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p_isStart indicates if p_line is the start of the docstring.'''
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if start:
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res = line.startswith(self.docSeps[0]) or \
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line.startswith(self.docSeps[1])
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else:
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sepOnly = (line == self.docSeps[0]) or (line == self.docSeps[1])
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if sepOnly:
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# If the line contains the separator only, is this the start or
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# the end of the docstring?
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if isStart: res = False
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else: res = True
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else:
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res = line.endswith(self.docSeps[0]) or \
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line.endswith(self.docSeps[1])
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return res
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def analysePythonFile(self, theFile):
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'''Analyses the Python file named p_fileName.'''
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# Are we in a docstring ?
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inDoc = False
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for line in theFile:
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stripped = line.strip()
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# Manage a line that is within a docstring
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inDocStart = False
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if not inDoc and self.isPythonDoc(stripped, start=True):
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inDoc = True
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inDocStart = True
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if inDoc:
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self.commentLines += 1
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if self.isPythonDoc(stripped, start=False, isStart=inDocStart):
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inDoc = False
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continue
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# Manage an empty line
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if not stripped:
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self.emptyLines += 1
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continue
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# Manage a comment line
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if line.startswith('#'):
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self.commentLines += 1
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continue
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# If we are here, we have a code line.
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self.codeLines += 1
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def analyseFile(self, fileName):
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'''Analyses file named p_fileName.'''
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self.numberOfFiles += 1
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theFile = file(fileName)
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ext = os.path.splitext(fileName)[1]
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if ext in caExts['py']: self.analysePythonFile(theFile)
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elif ext in caExts['xml']: self.analyseXmlFile(theFile)
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theFile.close()
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def printReport(self):
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'''Returns the analysis report as a string, only if there is at least
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one analysed line.'''
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lines = self.numberOfLines()
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if not lines: return
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commentRate = (self.commentLines / float(lines)) * 100.0
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blankRate = (self.emptyLines / float(lines)) * 100.0
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print('%s: %d files, %d lines (%.0f%% comments, %.0f%% blank)' % \
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(self.name, self.numberOfFiles, lines, commentRate, blankRate))
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# ------------------------------------------------------------------------------
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class LinesCounter:
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'''Counts and classifies the lines of code within a folder hierarchy.'''
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defaultExcludes = ('%s.svn' % os.sep, '%s.bzr' % os.sep, '%stmp' % os.sep,
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'%stemp' % os.sep)
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def __init__(self, folderOrModule, excludes=None):
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if isinstance(folderOrModule, basestring):
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# It is the path of some folder
|
||
self.folder = folderOrModule
|
||
else:
|
||
# It is a Python module
|
||
self.folder = os.path.dirname(folderOrModule.__file__)
|
||
# These dict will hold information about analysed files.
|
||
self.python = { False: CodeAnalysis('Python'),
|
||
True: CodeAnalysis('Python (test)')}
|
||
self.xml = { False: CodeAnalysis('XML'),
|
||
True: CodeAnalysis('XML (test)')}
|
||
# Are we currently analysing real or test code?
|
||
self.inTest = False
|
||
# Which paths to exclude from the analysis?
|
||
self.excludes = list(self.defaultExcludes)
|
||
if excludes: self.excludes += excludes
|
||
|
||
def printReport(self):
|
||
'''Displays on stdout a small analysis report about self.folder.'''
|
||
total = 0
|
||
for type in ('python', 'xml'):
|
||
for zone in (False, True):
|
||
analyser = getattr(self, type)[zone]
|
||
if analyser.numberOfFiles:
|
||
analyser.printReport()
|
||
total += analyser.numberOfLines()
|
||
print 'Total (including commented and blank): ***', total, '***'
|
||
|
||
def isExcluded(self, path):
|
||
'''Must p_path be excluded from the analysis?'''
|
||
for excl in self.excludes:
|
||
if excl in path: return True
|
||
|
||
def run(self):
|
||
'''Let's start the analysis of self.folder.'''
|
||
# The test markers will allow us to know if we are analysing test code
|
||
# or real code within a given part of self.folder code hierarchy.
|
||
testMarker1 = '%stest%s' % (os.sep, os.sep)
|
||
testMarker2 = '%stest' % os.sep
|
||
testMarker3 = '%stests%s' % (os.sep, os.sep)
|
||
testMarker4 = '%stests' % os.sep
|
||
j = os.path.join
|
||
for root, folders, files in os.walk(self.folder):
|
||
if self.isExcluded(root): continue
|
||
# Are we in real code or in test code ?
|
||
self.inTest = False
|
||
if root.endswith(testMarker2) or (root.find(testMarker1) != -1) or \
|
||
root.endswith(testMarker4) or (root.find(testMarker3) != -1):
|
||
self.inTest = True
|
||
# Scan the files in this folder
|
||
for fileName in files:
|
||
ext = os.path.splitext(fileName)[1]
|
||
if ext in caExts['py']:
|
||
self.python[self.inTest].analyseFile(j(root, fileName))
|
||
elif ext in caExts['xml']:
|
||
self.xml[self.inTest].analyseFile(j(root, fileName))
|
||
self.printReport()
|
||
|
||
# ------------------------------------------------------------------------------
|
||
CONVERSION_ERROR = 'An error occurred. %s'
|
||
class FileWrapper:
|
||
'''When you get, from an appy object, the value of a File attribute, you
|
||
get an instance of this class.'''
|
||
def __init__(self, zopeFile):
|
||
'''This constructor is only used by Appy to create a nice File instance
|
||
from a Zope corresponding instance (p_zopeFile). If you need to
|
||
create a new file and assign it to a File attribute, use the
|
||
attribute setter, do not create yourself an instance of this
|
||
class.'''
|
||
d = self.__dict__
|
||
d['_zopeFile'] = zopeFile # Not for you!
|
||
d['name'] = zopeFile.filename
|
||
d['content'] = zopeFile.data
|
||
d['mimeType'] = zopeFile.content_type
|
||
d['size'] = zopeFile.size # In bytes
|
||
|
||
def __setattr__(self, name, v):
|
||
d = self.__dict__
|
||
if name == 'name':
|
||
self._zopeFile.filename = v
|
||
d['name'] = v
|
||
elif name == 'content':
|
||
self._zopeFile.update_data(v, self.mimeType, len(v))
|
||
d['content'] = v
|
||
d['size'] = len(v)
|
||
elif name == 'mimeType':
|
||
self._zopeFile.content_type = self.mimeType = v
|
||
else:
|
||
raise 'Impossible to set attribute %s. "Settable" attributes ' \
|
||
'are "name", "content" and "mimeType".' % name
|
||
|
||
def dump(self, filePath=None, format=None, tool=None):
|
||
'''Writes the file on disk. If p_filePath is specified, it is the
|
||
path name where the file will be dumped; folders mentioned in it
|
||
must exist. If not, the file will be dumped in the OS temp folder.
|
||
The absolute path name of the dumped file is returned.
|
||
If an error occurs, the method returns None. If p_format is
|
||
specified, LibreOffice will be called for converting the dumped file
|
||
to the desired format. In this case, p_tool, a Appy tool, must be
|
||
provided. Indeed, any Appy tool contains parameters for contacting
|
||
LibreOffice in server mode.'''
|
||
if not filePath:
|
||
filePath = '%s/file%f.%s' % (getOsTempFolder(), time.time(),
|
||
normalizeString(self.name))
|
||
f = file(filePath, 'w')
|
||
if self.content.__class__.__name__ == 'Pdata':
|
||
# The file content is splitted in several chunks.
|
||
f.write(self.content.data)
|
||
nextPart = self.content.next
|
||
while nextPart:
|
||
f.write(nextPart.data)
|
||
nextPart = nextPart.next
|
||
else:
|
||
# Only one chunk
|
||
f.write(self.content)
|
||
f.close()
|
||
if format:
|
||
if not tool: return
|
||
# Convert the dumped file using OpenOffice
|
||
errorMessage = tool.convert(filePath, format)
|
||
# Even if we have an "error" message, it could be a simple warning.
|
||
# So we will continue here and, as a subsequent check for knowing if
|
||
# an error occurred or not, we will test the existence of the
|
||
# converted file (see below).
|
||
os.remove(filePath)
|
||
# Return the name of the converted file.
|
||
baseName, ext = os.path.splitext(filePath)
|
||
if (ext == '.%s' % format):
|
||
filePath = '%s.res.%s' % (baseName, format)
|
||
else:
|
||
filePath = '%s.%s' % (baseName, format)
|
||
if not os.path.exists(filePath):
|
||
tool.log(CONVERSION_ERROR % errorMessage, type='error')
|
||
return
|
||
return filePath
|
||
|
||
def copy(self):
|
||
'''Returns a copy of this file.'''
|
||
return FileWrapper(self._zopeFile._getCopy(self._zopeFile))
|
||
|
||
# ------------------------------------------------------------------------------
|
||
def getMimeType(fileName):
|
||
'''Tries to guess mime type from p_fileName.'''
|
||
res, encoding = mimetypes.guess_type(fileName)
|
||
if not res:
|
||
if fileName.endswith('.po'):
|
||
res = 'text/plain'
|
||
encoding = 'utf-8'
|
||
if not res: return ''
|
||
if not encoding: return res
|
||
return '%s;;charset=%s' % (res, encoding)
|
||
# ------------------------------------------------------------------------------
|