Lib/dumbdbm.py - platform/external/python/cpython3 - Gitiles

 """A dumb and slow but simple dbm clone.

 For database spam, spam.dir contains the index (a text file),
 spam.bak *may* contain a backup of the index (also a text file),
 while spam.dat contains the data (a binary file).

 XXX TO DO:

 - seems to contain a bug when updating...

 - reclaim free space (currently, space once occupied by deleted or expanded
 items is never reused)

 - support concurrent access (currently, if two processes take turns making
 updates, they can mess up the index)

 - support efficient access to large databases (currently, the whole index
 is read when the database is opened, and some updates rewrite the whole index)

 - support opening for read-only (flag = 'm')

 """

 import os as _os
 import __builtin__

 _open = __builtin__.open

 _BLOCKSIZE = 512

 error = IOError                         # For anydbm

 class _Database:

     def __init__(self, file, mode):
         self._mode = mode
         self._dirfile = file + _os.extsep + 'dir'
         self._datfile = file + _os.extsep + 'dat'
         self._bakfile = file + _os.extsep + 'bak'
         # Mod by Jack: create data file if needed
         try:
             f = _open(self._datfile, 'r')
         except IOError:
             f = _open(self._datfile, 'w', self._mode)
         f.close()
         self._update()

     def _update(self):
         self._index = {}
         try:
             f = _open(self._dirfile)
         except IOError:
             pass
         else:
             while 1:
                 line = f.readline().rstrip()
                 if not line: break
                 key, (pos, siz) = eval(line)
                 self._index[key] = (pos, siz)
             f.close()

     def _commit(self):
         try: _os.unlink(self._bakfile)
         except _os.error: pass
         try: _os.rename(self._dirfile, self._bakfile)
         except _os.error: pass
         f = _open(self._dirfile, 'w', self._mode)
         for key, (pos, siz) in self._index.items():
             f.write("%s, (%s, %s)\n" % (`key`, `pos`, `siz`))
         f.close()

     def __getitem__(self, key):
         pos, siz = self._index[key]     # may raise KeyError
         f = _open(self._datfile, 'rb')
         f.seek(pos)
         dat = f.read(siz)
         f.close()
         return dat

     def _addval(self, val):
         f = _open(self._datfile, 'rb+')
         f.seek(0, 2)
         pos = int(f.tell())
 ## Does not work under MW compiler
 ##              pos = ((pos + _BLOCKSIZE - 1) / _BLOCKSIZE) * _BLOCKSIZE
 ##              f.seek(pos)
         npos = ((pos + _BLOCKSIZE - 1) // _BLOCKSIZE) * _BLOCKSIZE
         f.write('\0'*(npos-pos))
         pos = npos

         f.write(val)
         f.close()
         return (pos, len(val))

     def _setval(self, pos, val):
         f = _open(self._datfile, 'rb+')
         f.seek(pos)
         f.write(val)
         f.close()
         return (pos, len(val))

     def _addkey(self, key, (pos, siz)):
         self._index[key] = (pos, siz)
         f = _open(self._dirfile, 'a', self._mode)
         f.write("%s, (%s, %s)\n" % (`key`, `pos`, `siz`))
         f.close()

     def __setitem__(self, key, val):
         if not type(key) == type('') == type(val):
             raise TypeError, "keys and values must be strings"
         if not key in self._index:
             (pos, siz) = self._addval(val)
             self._addkey(key, (pos, siz))
         else:
             pos, siz = self._index[key]
             oldblocks = (siz + _BLOCKSIZE - 1) / _BLOCKSIZE
             newblocks = (len(val) + _BLOCKSIZE - 1) / _BLOCKSIZE
             if newblocks <= oldblocks:
                 pos, siz = self._setval(pos, val)
                 self._index[key] = pos, siz
             else:
                 pos, siz = self._addval(val)
                 self._index[key] = pos, siz

     def __delitem__(self, key):
         del self._index[key]
         self._commit()

     def keys(self):
         return self._index.keys()

     def has_key(self, key):
         return key in self._index

     def __contains__(self, key):
         return key in self._index

     def iterkeys(self):
         return self._index.iterkeys()
     __iter__ = iterkeys

     def __len__(self):
         return len(self._index)

     def close(self):
         self._commit()
         self._index = None
         self._datfile = self._dirfile = self._bakfile = None

     def __del__(self):
         if self._index is not None:
             self._commit()


 def open(file, flag=None, mode=0666):
     """Open the database file, filename, and return corresponding object.

     The flag argument, used to control how the database is opened in the
     other DBM implementations, is ignored in the dumbdbm module; the
     database is always opened for update, and will be created if it does
     not exist.

     The optional mode argument is the UNIX mode of the file, used only when
     the database has to be created.  It defaults to octal code 0666 (and
     will be modified by the prevailing umask).

     """
     # flag, mode arguments are currently ignored
     return _Database(file, mode)
	"""A dumb and slow but simple dbm clone.

	For database spam, spam.dir contains the index (a text file),
	spam.bak may contain a backup of the index (also a text file),
	while spam.dat contains the data (a binary file).

	XXX TO DO:

	- seems to contain a bug when updating...

	- reclaim free space (currently, space once occupied by deleted or expanded
	items is never reused)

	- support concurrent access (currently, if two processes take turns making
	updates, they can mess up the index)

	- support efficient access to large databases (currently, the whole index
	is read when the database is opened, and some updates rewrite the whole index)

	- support opening for read-only (flag = 'm')

	"""

	import os as _os
	import __builtin__

	_open = __builtin__.open

	_BLOCKSIZE = 512

	error = IOError # For anydbm

	class _Database:

	def __init__(self, file, mode):
	self._mode = mode
	self._dirfile = file + _os.extsep + 'dir'
	self._datfile = file + _os.extsep + 'dat'
	self._bakfile = file + _os.extsep + 'bak'
	# Mod by Jack: create data file if needed
	try:
	f = _open(self._datfile, 'r')
	except IOError:
	f = _open(self._datfile, 'w', self._mode)
	f.close()
	self._update()

	def _update(self):
	self._index = {}
	try:
	f = _open(self._dirfile)
	except IOError:
	pass
	else:
	while 1:
	line = f.readline().rstrip()
	if not line: break
	key, (pos, siz) = eval(line)
	self._index[key] = (pos, siz)
	f.close()

	def _commit(self):
	try: _os.unlink(self._bakfile)
	except _os.error: pass
	try: _os.rename(self._dirfile, self._bakfile)
	except _os.error: pass
	f = _open(self._dirfile, 'w', self._mode)
	for key, (pos, siz) in self._index.items():
	f.write("%s, (%s, %s)\n" % (`key`, `pos`, `siz`))
	f.close()

	def __getitem__(self, key):
	pos, siz = self._index[key] # may raise KeyError
	f = _open(self._datfile, 'rb')
	f.seek(pos)
	dat = f.read(siz)
	f.close()
	return dat

	def _addval(self, val):
	f = _open(self._datfile, 'rb+')
	f.seek(0, 2)
	pos = int(f.tell())
	## Does not work under MW compiler
	## pos = ((pos + _BLOCKSIZE - 1) / _BLOCKSIZE) * _BLOCKSIZE
	## f.seek(pos)
	npos = ((pos + _BLOCKSIZE - 1) // _BLOCKSIZE) * _BLOCKSIZE
	f.write('\0'*(npos-pos))
	pos = npos

	f.write(val)
	f.close()
	return (pos, len(val))

	def _setval(self, pos, val):
	f = _open(self._datfile, 'rb+')
	f.seek(pos)
	f.write(val)
	f.close()
	return (pos, len(val))

	def _addkey(self, key, (pos, siz)):
	self._index[key] = (pos, siz)
	f = _open(self._dirfile, 'a', self._mode)
	f.write("%s, (%s, %s)\n" % (`key`, `pos`, `siz`))
	f.close()

	def __setitem__(self, key, val):
	if not type(key) == type('') == type(val):
	raise TypeError, "keys and values must be strings"
	if not key in self._index:
	(pos, siz) = self._addval(val)
	self._addkey(key, (pos, siz))
	else:
	pos, siz = self._index[key]
	oldblocks = (siz + _BLOCKSIZE - 1) / _BLOCKSIZE
	newblocks = (len(val) + _BLOCKSIZE - 1) / _BLOCKSIZE
	if newblocks <= oldblocks:
	pos, siz = self._setval(pos, val)
	self._index[key] = pos, siz
	else:
	pos, siz = self._addval(val)
	self._index[key] = pos, siz

	def __delitem__(self, key):
	del self._index[key]
	self._commit()

	def keys(self):
	return self._index.keys()

	def has_key(self, key):
	return key in self._index

	def __contains__(self, key):
	return key in self._index

	def iterkeys(self):
	return self._index.iterkeys()
	__iter__ = iterkeys

	def __len__(self):
	return len(self._index)

	def close(self):
	self._commit()
	self._index = None
	self._datfile = self._dirfile = self._bakfile = None

	def __del__(self):
	if self._index is not None:
	self._commit()



	def open(file, flag=None, mode=0666):
	"""Open the database file, filename, and return corresponding object.

	The flag argument, used to control how the database is opened in the
	other DBM implementations, is ignored in the dumbdbm module; the
	database is always opened for update, and will be created if it does
	not exist.

	The optional mode argument is the UNIX mode of the file, used only when
	the database has to be created. It defaults to octal code 0666 (and
	will be modified by the prevailing umask).

	"""
	# flag, mode arguments are currently ignored
	return _Database(file, mode)