~bzr-pqm/bzr/bzr.dev

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diff Performance Analysis
=========================

.. contents:: :local:

Minimal Work
------------

Reuse of historical comparisons
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
A significant part of the work done by diff is sequence matching.  This
scales O(n^2) with the number of lines in the file.  Therefore, it
is worthwile to avoid content comparisons as much as possible.

Our current knit format contains content comparisons, and this data can
be converted into lists of matching blocks.  Other future formats such as
mpdiff may also support such conversion.  So it is possible to reuse past
comparisons.

It is also possible to combine sequential comparisons.  So given a comparison
of "foo" to "bar", and "bar" to "baz", it is possible to derive a comparison of
"foo" to "baz".

Reuse of historical comparisons will scale with the number of uncommon
build-parents between the two historical revisions.  This will typically be
proportional to the amount of change that the file has undergone.  Therefore,
in the common case, reuse of historical comparisons will scale with the
amount of change.

The downside of such reuse is that it ties the comparison to the historical
data.  But given the performance improvement, it seems to be worth
consideration.  Fresh comparisons can be performed if the user requests them.

It may also be possible to accelerate comparisons by including annotation data,
thus increasing the number of unique lines.

Historical Tree Against Historical Tree
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
This operation should be strictly proportional to the amount of change, because
a comparison has already been done at commit time.  Achieving that performance
requires the committed data to be properly structured, so that the comparison
can be extracted and combined with other comparisons.  This comparision
extraction should be possible at the inventory and file-content levels.

Minimum work:

1. Extract and combine inventory comparisons
2. Extract and combine text comparisions for modified texts

Basis Against Historical Tree
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
This is another case of Historical Tree Against Historical Tree.

Basis Against Basis
~~~~~~~~~~~~~~~~~~~
This is another case of Historical Tree Against Historical Tree.

Working Tree Against Basis
~~~~~~~~~~~~~~~~~~~~~~~~~~
This must scale with the number of versioned files, unless the user indicates
that only certain files should be compared.

Performance can be further improved by caching comparisons to avoid repeating
them.  Caching could potentially be performed by ``diff`` and perhaps by 
``merge``.  Merge is aware of the relationship of a text merge's result to
the THIS value, and the THIS value is generally the basis value.  So the
comparison is latent, but present.  The only issue is extracting it.

The cache could be indexed by sha1sum pairs.  It could also be indexed by
file-id, to facilitate removal of stale data.

Minimum work:

1. Scan working tree for modified files
2. Retrieve cached comparisons
3. Perform comparisons on files with no cached comparisons
4. Cache comparisons for files with no cached comparisons

Working Tree Against Historical Tree
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
This can be structured as a comparison of working tree against basis tree,
followed by basis tree against historical tree.  Therefore, it combines the
performance characteristics of "Working Tree Against Basis" with "Basis Against
Historical Tree".

Working Tree Against Working Tree
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
This can be structured as two comparisons against basis, and one comparison
of basis against basis.  Its performance is therefore similar to Working Tree
Against Historical Tree.

API Changes
-----------

Desired API:

 - Tree.get_comparision(file_id, tree)

This probably entails:

 - WorkingTree.store_comparison(file_id, revision_id, sha1, comparison)
 - WorkingTree.get_comparison(file_id, revision_id, sha1)
 - Repository.get_comparision(file_id, revision_id, revision_id)
 - merge_comparisions(comparison, comparision)

Storage considerations
----------------------
It must be cheap (e.g. scale with number of intermediate revisions) to perform
comparison of two historical texts.  It must be cheap to perform comparison of
the inventories of two historical trees.