Initial commit of OpenSPARC T2 architecture model.

[OpenSPARC-T2-SAM] / sam-t2 / devtools / v9 / lib / python2.4 / bsddb / dbshelve.py

#!/bin/env python
#------------------------------------------------------------------------
#           Copyright (c) 1997-2001 by Total Control Software
#                         All Rights Reserved
#------------------------------------------------------------------------
#
# Module Name:  dbShelve.py
#
# Description:  A reimplementation of the standard shelve.py that
#               forces the use of cPickle, and DB.
#
# Creation Date:    11/3/97 3:39:04PM
#
# License:      This is free software.  You may use this software for any
#               purpose including modification/redistribution, so long as
#               this header remains intact and that you do not claim any
#               rights of ownership or authorship of this software.  This
#               software has been tested, but no warranty is expressed or
#               implied.
#
# 13-Dec-2000:  Updated to be used with the new bsddb3 package.
#               Added DBShelfCursor class.
#
#------------------------------------------------------------------------

"""Manage shelves of pickled objects using bsddb database files for the
storage.
"""

#------------------------------------------------------------------------

import cPickle
try:
   from UserDict import DictMixin
except ImportError:
   # DictMixin is new in Python 2.3
   class DictMixin: pass
import db

#------------------------------------------------------------------------


def open(filename, flags=db.DB_CREATE, mode=0660, filetype=db.DB_HASH,
        dbenv=None, dbname=None):
   """
   A simple factory function for compatibility with the standard
   shleve.py module.  It can be used like this, where key is a string
   and data is a pickleable object:

       from bsddb import dbshelve
       db = dbshelve.open(filename)

       db[key] = data

       db.close()
   """
   if type(flags) == type(''):
       sflag = flags
       if sflag == 'r':
           flags = db.DB_RDONLY
       elif sflag == 'rw':
           flags = 0
       elif sflag == 'w':
           flags =  db.DB_CREATE
       elif sflag == 'c':
           flags =  db.DB_CREATE
       elif sflag == 'n':
           flags = db.DB_TRUNCATE | db.DB_CREATE
       else:
           raise db.DBError, "flags should be one of 'r', 'w', 'c' or 'n' or use the bsddb.db.DB_* flags"

   d = DBShelf(dbenv)
   d.open(filename, dbname, filetype, flags, mode)
   return d

#---------------------------------------------------------------------------

class DBShelf(DictMixin):
   """A shelf to hold pickled objects, built upon a bsddb DB object.  It
   automatically pickles/unpickles data objects going to/from the DB.
   """
   def __init__(self, dbenv=None):
       self.db = db.DB(dbenv)
       self.binary = 1


   def __del__(self):
       self.close()


   def __getattr__(self, name):
       """Many methods we can just pass through to the DB object.
       (See below)
       """
       return getattr(self.db, name)


   #-----------------------------------
   # Dictionary access methods

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


   def __getitem__(self, key):
       data = self.db[key]
       return cPickle.loads(data)


   def __setitem__(self, key, value):
       data = cPickle.dumps(value, self.binary)
       self.db[key] = data


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


   def keys(self, txn=None):
       if txn != None:
           return self.db.keys(txn)
       else:
           return self.db.keys()


   def items(self, txn=None):
       if txn != None:
           items = self.db.items(txn)
       else:
           items = self.db.items()
       newitems = []

       for k, v in items:
           newitems.append( (k, cPickle.loads(v)) )
       return newitems

   def values(self, txn=None):
       if txn != None:
           values = self.db.values(txn)
       else:
           values = self.db.values()

       return map(cPickle.loads, values)

   #-----------------------------------
   # Other methods

   def __append(self, value, txn=None):
       data = cPickle.dumps(value, self.binary)
       return self.db.append(data, txn)

   def append(self, value, txn=None):
       if self.get_type() != db.DB_RECNO:
           self.append = self.__append
           return self.append(value, txn=txn)
       raise db.DBError, "append() only supported when dbshelve opened with filetype=dbshelve.db.DB_RECNO"


   def associate(self, secondaryDB, callback, flags=0):
       def _shelf_callback(priKey, priData, realCallback=callback):
           data = cPickle.loads(priData)
           return realCallback(priKey, data)
       return self.db.associate(secondaryDB, _shelf_callback, flags)


   #def get(self, key, default=None, txn=None, flags=0):
   def get(self, *args, **kw):
       # We do it with *args and **kw so if the default value wasn't
       # given nothing is passed to the extension module.  That way
       # an exception can be raised if set_get_returns_none is turned
       # off.
       data = apply(self.db.get, args, kw)
       try:
           return cPickle.loads(data)
       except (TypeError, cPickle.UnpicklingError):
           return data  # we may be getting the default value, or None,
                        # so it doesn't need unpickled.

   def get_both(self, key, value, txn=None, flags=0):
       data = cPickle.dumps(value, self.binary)
       data = self.db.get(key, data, txn, flags)
       return cPickle.loads(data)


   def cursor(self, txn=None, flags=0):
       c = DBShelfCursor(self.db.cursor(txn, flags))
       c.binary = self.binary
       return c


   def put(self, key, value, txn=None, flags=0):
       data = cPickle.dumps(value, self.binary)
       return self.db.put(key, data, txn, flags)


   def join(self, cursorList, flags=0):
       raise NotImplementedError


   #----------------------------------------------
   # Methods allowed to pass-through to self.db
   #
   #    close,  delete, fd, get_byteswapped, get_type, has_key,
   #    key_range, open, remove, rename, stat, sync,
   #    upgrade, verify, and all set_* methods.


#---------------------------------------------------------------------------

class DBShelfCursor:
   """
   """
   def __init__(self, cursor):
       self.dbc = cursor

   def __del__(self):
       self.close()


   def __getattr__(self, name):
       """Some methods we can just pass through to the cursor object.  (See below)"""
       return getattr(self.dbc, name)


   #----------------------------------------------

   def dup(self, flags=0):
       return DBShelfCursor(self.dbc.dup(flags))


   def put(self, key, value, flags=0):
       data = cPickle.dumps(value, self.binary)
       return self.dbc.put(key, data, flags)


   def get(self, *args):
       count = len(args)  # a method overloading hack
       method = getattr(self, 'get_%d' % count)
       apply(method, args)

   def get_1(self, flags):
       rec = self.dbc.get(flags)
       return self._extract(rec)

   def get_2(self, key, flags):
       rec = self.dbc.get(key, flags)
       return self._extract(rec)

   def get_3(self, key, value, flags):
       data = cPickle.dumps(value, self.binary)
       rec = self.dbc.get(key, flags)
       return self._extract(rec)


   def current(self, flags=0): return self.get_1(flags|db.DB_CURRENT)
   def first(self, flags=0): return self.get_1(flags|db.DB_FIRST)
   def last(self, flags=0): return self.get_1(flags|db.DB_LAST)
   def next(self, flags=0): return self.get_1(flags|db.DB_NEXT)
   def prev(self, flags=0): return self.get_1(flags|db.DB_PREV)
   def consume(self, flags=0): return self.get_1(flags|db.DB_CONSUME)
   def next_dup(self, flags=0): return self.get_1(flags|db.DB_NEXT_DUP)
   def next_nodup(self, flags=0): return self.get_1(flags|db.DB_NEXT_NODUP)
   def prev_nodup(self, flags=0): return self.get_1(flags|db.DB_PREV_NODUP)


   def get_both(self, key, value, flags=0):
       data = cPickle.dumps(value, self.binary)
       rec = self.dbc.get_both(key, flags)
       return self._extract(rec)


   def set(self, key, flags=0):
       rec = self.dbc.set(key, flags)
       return self._extract(rec)

   def set_range(self, key, flags=0):
       rec = self.dbc.set_range(key, flags)
       return self._extract(rec)

   def set_recno(self, recno, flags=0):
       rec = self.dbc.set_recno(recno, flags)
       return self._extract(rec)

   set_both = get_both

   def _extract(self, rec):
       if rec is None:
           return None
       else:
           key, data = rec
           return key, cPickle.loads(data)

   #----------------------------------------------
   # Methods allowed to pass-through to self.dbc
   #
   # close, count, delete, get_recno, join_item


#---------------------------------------------------------------------------