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__qualname__�__doc__r!���r&���r(���r+���r-���r.���r���r���r���r ���r���*���s���
r���c�����������������#���sh���|durt�|��j�}t��jdd�}|du�r6��fdd�}||��j��j�D�]
}t��||�D�]
}|V��qVqFdS�)a���slice revs to reduce the amount of unrelated data to be read from disk.
``revs`` is sliced into groups that should be read in one time.
Assume that revs are sorted.
The initial chunk is sliced until the overall density (payload/chunks-span
ratio) is above `revlog._srdensitythreshold`. No gap smaller than
`revlog._srmingapsize` is skipped.
If `targetsize` is set, no chunk larger than `targetsize` will be yield.
For consistency with other slicing choice, this limit won't go lower than
`revlog._srmingapsize`.
If individual revisions chunk are larger than this limit, they will still
be raised individually.
>>> data = [
... 5, #00 (5)
... 10, #01 (5)
... 12, #02 (2)
... 12, #03 (empty)
... 27, #04 (15)
... 31, #05 (4)
... 31, #06 (empty)
... 42, #07 (11)
... 47, #08 (5)
... 47, #09 (empty)
... 48, #10 (1)
... 51, #11 (3)
... 74, #12 (23)
... 85, #13 (11)
... 86, #14 (1)
... 91, #15 (5)
... ]
>>> revlog = _testrevlog(data, snapshot=range(16))
>>> list(slicechunk(revlog, list(range(16))))
[[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]]
>>> list(slicechunk(revlog, [0, 15]))
[[0], [15]]
>>> list(slicechunk(revlog, [0, 11, 15]))
[[0], [11], [15]]
>>> list(slicechunk(revlog, [0, 11, 13, 15]))
[[0], [11, 13, 15]]
>>> list(slicechunk(revlog, [1, 2, 3, 5, 8, 10, 11, 14]))
[[1, 2], [5, 8, 10, 11], [14]]
Slicing with a maximum chunk size
>>> list(slicechunk(revlog, [0, 11, 13, 15], targetsize=15))
[[0], [11], [13], [15]]
>>> list(slicechunk(revlog, [0, 11, 13, 15], targetsize=20))
[[0], [11], [13, 15]]
Slicing involving nullrev
>>> list(slicechunk(revlog, [-1, 0, 11, 13, 15], targetsize=20))
[[-1, 0], [11], [13, 15]]
>>> list(slicechunk(revlog, [-1, 13, 15], targetsize=5))
[[-1], [13], [15]]
NZslicechunktodensityc��������������������s���t���|�||�S�r)���)�_slicechunktodensity)�x�y�z��revlogr���r ����<lambda>���������z
slicechunk.<locals>.<lambda>)�maxr���r���r���r����_slicechunktosize)r8����revs�
targetsizeZdensityslicing�chunkZsubchunkr���r7���r ����
slicechunkM���s����<
�r@���c�����������������c���s���|���|d��}|��|d��}||�}|du�s4||kr>|V��dS�d}d}t|�}t|��|D�]l\} }
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|
�r�|
V��dS�)aJ
��slice revs to match the target size
This is intended to be used on chunk that density slicing selected by that
are still too large compared to the read garantee of revlog. This might
happens when "minimal gap size" interrupted the slicing or when chain are
built in a way that create large blocks next to each other.
>>> data = [
... 3, #0 (3)
... 5, #1 (2)
... 6, #2 (1)
... 8, #3 (2)
... 8, #4 (empty)
... 11, #5 (3)
... 12, #6 (1)
... 13, #7 (1)
... 14, #8 (1)
... ]
== All snapshots cases ==
>>> revlog = _testrevlog(data, snapshot=range(9))
Cases where chunk is already small enough
>>> list(_slicechunktosize(revlog, [0], 3))
[[0]]
>>> list(_slicechunktosize(revlog, [6, 7], 3))
[[6, 7]]
>>> list(_slicechunktosize(revlog, [0], None))
[[0]]
>>> list(_slicechunktosize(revlog, [6, 7], None))
[[6, 7]]
cases where we need actual slicing
>>> list(_slicechunktosize(revlog, [0, 1], 3))
[[0], [1]]
>>> list(_slicechunktosize(revlog, [1, 3], 3))
[[1], [3]]
>>> list(_slicechunktosize(revlog, [1, 2, 3], 3))
[[1, 2], [3]]
>>> list(_slicechunktosize(revlog, [3, 5], 3))
[[3], [5]]
>>> list(_slicechunktosize(revlog, [3, 4, 5], 3))
[[3], [5]]
>>> list(_slicechunktosize(revlog, [5, 6, 7, 8], 3))
[[5], [6, 7, 8]]
>>> list(_slicechunktosize(revlog, [0, 1, 2, 3, 4, 5, 6, 7, 8], 3))
[[0], [1, 2], [3], [5], [6, 7, 8]]
Case with too large individual chunk (must return valid chunk)
>>> list(_slicechunktosize(revlog, [0, 1], 2))
[[0], [1]]
>>> list(_slicechunktosize(revlog, [1, 3], 1))
[[1], [3]]
>>> list(_slicechunktosize(revlog, [3, 4, 5], 2))
[[3], [5]]
== No Snapshot cases ==
>>> revlog = _testrevlog(data)
Cases where chunk is already small enough
>>> list(_slicechunktosize(revlog, [0], 3))
[[0]]
>>> list(_slicechunktosize(revlog, [6, 7], 3))
[[6, 7]]
>>> list(_slicechunktosize(revlog, [0], None))
[[0]]
>>> list(_slicechunktosize(revlog, [6, 7], None))
[[6, 7]]
cases where we need actual slicing
>>> list(_slicechunktosize(revlog, [0, 1], 3))
[[0], [1]]
>>> list(_slicechunktosize(revlog, [1, 3], 3))
[[1], [3]]
>>> list(_slicechunktosize(revlog, [1, 2, 3], 3))
[[1], [2, 3]]
>>> list(_slicechunktosize(revlog, [3, 5], 3))
[[3], [5]]
>>> list(_slicechunktosize(revlog, [3, 4, 5], 3))
[[3], [4, 5]]
>>> list(_slicechunktosize(revlog, [5, 6, 7, 8], 3))
[[5], [6, 7, 8]]
>>> list(_slicechunktosize(revlog, [0, 1, 2, 3, 4, 5, 6, 7, 8], 3))
[[0], [1, 2], [3], [5], [6, 7, 8]]
Case with too large individual chunk (must return valid chunk)
>>> list(_slicechunktosize(revlog, [0, 1], 2))
[[0], [1]]
>>> list(_slicechunktosize(revlog, [1, 3], 1))
[[1], [3]]
>>> list(_slicechunktosize(revlog, [3, 4, 5], 2))
[[3], [5]]
== mixed case ==
>>> revlog = _testrevlog(data, snapshot=[0, 1, 2])
>>> list(_slicechunktosize(revlog, list(range(9)), 5))
[[0, 1], [2], [3, 4, 5], [6, 7, 8]]
r������Nr���r���)r&���r(���� enumerate�nextr.����
_trimchunkr,���)r8���r=���r>���Z startdataZenddataZfullspanZ
startrevidxZ endrevidxZiterrevs�idx�r�spanr ���r?���ZnbitemZ
localenddatar���r���r ���r<�������sX����d
r<���r���c�����������������#���s���|�j�}|�j��t|�dkr"|V��dS�t|�|�}||k�r>|V��dS�|}t��fdd�|D���}|rj|t|��}nd}||kr�|V��dS�g�} d}
t|�D�]P\}
}
||
�}
��|
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dur�|
|
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f��|
|�}
q�| ����g�}| �r:||k��r:| � ��\}}|�|��||8�}|dk�r4|t|��}q�d}q�|����d}|D�]$}t
|�|||�}|�rh|V��|}�qJt
|�||�}|�r�|V��dS�)a���slice revs to reduce the amount of unrelated data to be read from disk.
``revs`` is sliced into groups that should be read in one time.
Assume that revs are sorted.
The initial chunk is sliced until the overall density (payload/chunks-span
ratio) is above `targetdensity`. No gap smaller than `mingapsize` is
skipped.
>>> revlog = _testrevlog([
... 5, #00 (5)
... 10, #01 (5)
... 12, #02 (2)
... 12, #03 (empty)
... 27, #04 (15)
... 31, #05 (4)
... 31, #06 (empty)
... 42, #07 (11)
... 47, #08 (5)
... 47, #09 (empty)
... 48, #10 (1)
... 51, #11 (3)
... 74, #12 (23)
... 85, #13 (11)
... 86, #14 (1)
... 91, #15 (5)
... ])
>>> list(_slicechunktodensity(revlog, list(range(16))))
[[0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15]]
>>> list(_slicechunktodensity(revlog, [0, 15]))
[[0], [15]]
>>> list(_slicechunktodensity(revlog, [0, 11, 15]))
[[0], [11], [15]]
>>> list(_slicechunktodensity(revlog, [0, 11, 13, 15]))
[[0], [11, 13, 15]]
>>> list(_slicechunktodensity(revlog, [1, 2, 3, 5, 8, 10, 11, 14]))
[[1, 2], [5, 8, 10, 11], [14]]
>>> list(_slicechunktodensity(revlog, [1, 2, 3, 5, 8, 10, 11, 14],
... mingapsize=20))
[[1, 2, 3, 5, 8, 10, 11], [14]]
>>> list(_slicechunktodensity(revlog, [1, 2, 3, 5, 8, 10, 11, 14],
... targetdensity=0.95))
[[1, 2], [5], [8, 10, 11], [14]]
>>> list(_slicechunktodensity(revlog, [1, 2, 3, 5, 8, 10, 11, 14],
... targetdensity=0.95, mingapsize=12))
[[1, 2], [5, 8, 10, 11], [14]]
r���Nc�����������������3���s���|�]}��|�V��qd�S�r)���r�����.0rF����r+���r���r ���� <genexpr>q��r:���z'_slicechunktodensity.<locals>.<genexpr>g�������?r���)
r&���r+���r,����
segmentspan�sum�floatrB����append�sort�poprD���)r8���r=���Z
targetdensityZ
mingapsizer&���ZdeltachainspanZreaddataZ
chainpayloadr
���ZgapsZprevend�ir%���ZrevstartZrevlenZgapsizeZselectedZgapidxZprevidxrE���r?���r���rJ���r ���r3���2��s`����1
r3���c�����������������C���sd���|�j�}|du�rt|�}||d��t|��k�rX|dkrX||krX|||d���dkrX|d8�}q*|||��S�)a���returns revs[startidx:endidx] without empty trailing revs
Doctest Setup
>>> revlog = _testrevlog([
... 5, #0
... 10, #1
... 12, #2
... 12, #3 (empty)
... 17, #4
... 21, #5
... 21, #6 (empty)
... ])
Contiguous cases:
>>> _trimchunk(revlog, [0, 1, 2, 3, 4, 5, 6], 0)
[0, 1, 2, 3, 4, 5]
>>> _trimchunk(revlog, [0, 1, 2, 3, 4, 5, 6], 0, 5)
[0, 1, 2, 3, 4]
>>> _trimchunk(revlog, [0, 1, 2, 3, 4, 5, 6], 0, 4)
[0, 1, 2]
>>> _trimchunk(revlog, [0, 1, 2, 3, 4, 5, 6], 2, 4)
[2]
>>> _trimchunk(revlog, [0, 1, 2, 3, 4, 5, 6], 3)
[3, 4, 5]
>>> _trimchunk(revlog, [0, 1, 2, 3, 4, 5, 6], 3, 5)
[3, 4]
Discontiguous cases:
>>> _trimchunk(revlog, [1, 3, 5, 6], 0)
[1, 3, 5]
>>> _trimchunk(revlog, [1, 3, 5, 6], 0, 2)
[1]
>>> _trimchunk(revlog, [1, 3, 5, 6], 1, 3)
[3, 5]
>>> _trimchunk(revlog, [1, 3, 5, 6], 1)
[3, 5]
Nr���r���)r+���r,���)r8���r=���ZstartidxZendidxr+���r���r���r ���rD������s����&���
rD���c�����������������C���s(���|sdS�|���|d��}||��|d���S�)a���Get the byte span of a segment of revisions
revs is a sorted array of revision numbers
>>> revlog = _testrevlog([
... 5, #0
... 10, #1
... 12, #2
... 12, #3 (empty)
... 17, #4
... ])
>>> segmentspan(revlog, [0, 1, 2, 3, 4])
17
>>> segmentspan(revlog, [0, 4])
17
>>> segmentspan(revlog, [3, 4])
5
>>> segmentspan(revlog, [1, 2, 3,])
7
>>> segmentspan(revlog, [1, 3])
7
r���rA���r*���)r8���r=���r(���r���r���r ���rL������s����rL���c�����������
������C���s����t��d�}|d|��t�|�|�t|�|��kr>||d��} n|j||�d�}
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validatehashr���r���r ����_textfromdelta��s&����
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�r_���T)�slots�frozenc�������������������@���sL���e�Zd�Ze���Ze���Ze���Ze���Ze���Z e���Z
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snapshotdepthr���r���r���r ���rb���#��s���rb���c�������������� ���C���s2���t�|�j|�jd�d|�jd�f|�j|�j|�j|�j|�j�S�)z�turn into a "u" (no-compression) into no-compression without header
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r���r:���) rb���rc���rd���r
���re���rf���rg���rh���ri���)r\���r���r���r ����drop_u_compression/��s����
�rj���c�����������������C���s����|du�r
dS�|j�}|d�}|�j}|s*|j}t||�}|�jsH||jk�rHdS�||jk�rVdS�|t�|jk�rhdS�|�jr~|�j|j k�r~dS�|j
dur�||j
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�|jk�r�dS�dS�)z�Returns True if the given delta is good. Good means that it is within
the disk span, disk size, and chain length bounds that we know to be
performant.NF����T)
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����rr���i���c�����������������c���s���t�|��r|�jsdV��dS�|�j}|�j}|�j}d}|t�} th}
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�V�}qJdV��dS�)z�Provides group of revision to be tested as delta base
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q�| du��rV|��|||�} | S�)ay��Find an acceptable delta against a candidate revision
revinfo: information about the revision (instance of _revisioninfo)
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Returns the first acceptable candidate revision, as ordered by
_candidategroups
If no suitable deltabase is found, we return delta info for a full
snapshot.
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a delta base. Use this to recompute delta suitable in censor or strip
context.
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