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113 lines
3.4 KiB
Python
113 lines
3.4 KiB
Python
# Copyright (C) 2010, 2011 Sebastian Thiel (byronimo@gmail.com) and contributors
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#
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# This module is part of GitDB and is released under
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# the New BSD License: http://www.opensource.org/licenses/bsd-license.php
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"""Contains the MemoryDatabase implementation"""
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from gitdb.db.loose import LooseObjectDB
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from gitdb.db.base import (
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ObjectDBR,
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ObjectDBW
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)
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from gitdb.base import (
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OStream,
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IStream,
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)
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from gitdb.exc import (
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BadObject,
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UnsupportedOperation
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)
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from gitdb.stream import (
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ZippedStoreShaWriter,
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DecompressMemMapReader,
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)
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from io import BytesIO
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__all__ = ("MemoryDB", )
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class MemoryDB(ObjectDBR, ObjectDBW):
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"""A memory database stores everything to memory, providing fast IO and object
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retrieval. It should be used to buffer results and obtain SHAs before writing
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it to the actual physical storage, as it allows to query whether object already
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exists in the target storage before introducing actual IO"""
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def __init__(self):
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super(MemoryDB, self).__init__()
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self._db = LooseObjectDB("path/doesnt/matter")
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# maps 20 byte shas to their OStream objects
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self._cache = dict()
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def set_ostream(self, stream):
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raise UnsupportedOperation("MemoryDB's always stream into memory")
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def store(self, istream):
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zstream = ZippedStoreShaWriter()
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self._db.set_ostream(zstream)
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istream = self._db.store(istream)
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zstream.close() # close to flush
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zstream.seek(0)
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# don't provide a size, the stream is written in object format, hence the
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# header needs decompression
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decomp_stream = DecompressMemMapReader(zstream.getvalue(), close_on_deletion=False)
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self._cache[istream.binsha] = OStream(istream.binsha, istream.type, istream.size, decomp_stream)
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return istream
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def has_object(self, sha):
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return sha in self._cache
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def info(self, sha):
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# we always return streams, which are infos as well
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return self.stream(sha)
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def stream(self, sha):
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try:
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ostream = self._cache[sha]
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# rewind stream for the next one to read
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ostream.stream.seek(0)
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return ostream
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except KeyError:
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raise BadObject(sha)
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# END exception handling
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def size(self):
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return len(self._cache)
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def sha_iter(self):
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try:
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return self._cache.iterkeys()
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except AttributeError:
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return self._cache.keys()
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#{ Interface
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def stream_copy(self, sha_iter, odb):
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"""Copy the streams as identified by sha's yielded by sha_iter into the given odb
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The streams will be copied directly
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**Note:** the object will only be written if it did not exist in the target db
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:return: amount of streams actually copied into odb. If smaller than the amount
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of input shas, one or more objects did already exist in odb"""
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count = 0
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for sha in sha_iter:
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if odb.has_object(sha):
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continue
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# END check object existence
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ostream = self.stream(sha)
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# compressed data including header
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sio = BytesIO(ostream.stream.data())
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istream = IStream(ostream.type, ostream.size, sio, sha)
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odb.store(istream)
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count += 1
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# END for each sha
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return count
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#} END interface
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