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mirror of https://github.com/python/cpython.git synced 2024-11-28 16:45:42 +01:00
cpython/Objects/dictnotes.txt
Thomas Wouters cf297e46b8 Merged revisions 53623-53858 via svnmerge from
svn+ssh://pythondev@svn.python.org/python/trunk

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  r53624 | peter.astrand | 2007-02-02 20:06:36 +0100 (Fri, 02 Feb 2007) | 1 line

  We had several if statements checking the value of a fd. This is unsafe, since valid fds might be zero. We should check for not None instead.
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  r53635 | kurt.kaiser | 2007-02-05 07:03:18 +0100 (Mon, 05 Feb 2007) | 2 lines

  Add 'raw' support to configHandler. Patch 1650174 Tal Einat.
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  r53641 | kurt.kaiser | 2007-02-06 00:02:16 +0100 (Tue, 06 Feb 2007) | 5 lines

  1. Calltips now 'handle' tuples in the argument list (display '<tuple>' :)
     Suggested solution by Christos Georgiou, Bug 791968.
  2. Clean up tests, were not failing when they should have been.
  4. Remove some camelcase and an unneeded try/except block.
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  r53644 | kurt.kaiser | 2007-02-06 04:21:40 +0100 (Tue, 06 Feb 2007) | 2 lines

  Clean up ModifiedInterpreter.runcode() structure
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  r53646 | peter.astrand | 2007-02-06 16:37:50 +0100 (Tue, 06 Feb 2007) | 1 line

  Applied patch 1124861.3.patch to solve bug #1124861: Automatically create pipes on Windows, if GetStdHandle fails. Will backport.
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  r53648 | lars.gustaebel | 2007-02-06 19:38:13 +0100 (Tue, 06 Feb 2007) | 4 lines

  Patch #1652681: create nonexistent files in append mode and
  allow appending to empty files.
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  r53649 | kurt.kaiser | 2007-02-06 20:09:43 +0100 (Tue, 06 Feb 2007) | 4 lines

  Updated patch (CodeContext.061217.patch) to
  [ 1362975 ] CodeContext - Improved text indentation
  Tal Einat 16Dec06
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  r53650 | kurt.kaiser | 2007-02-06 20:21:19 +0100 (Tue, 06 Feb 2007) | 2 lines

  narrow exception per [ 1540849 ] except too broad
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  r53653 | kurt.kaiser | 2007-02-07 04:39:41 +0100 (Wed, 07 Feb 2007) | 4 lines

  [ 1621265 ] Auto-completion list placement
  Move AC window below input line unless not enough space, then put it above.
  Patch: Tal Einat
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  r53654 | kurt.kaiser | 2007-02-07 09:07:13 +0100 (Wed, 07 Feb 2007) | 2 lines

  Handle AttributeError during calltip lookup
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  r53656 | raymond.hettinger | 2007-02-07 21:08:22 +0100 (Wed, 07 Feb 2007) | 3 lines

  SF #1615701:  make d.update(m) honor __getitem__() and keys() in dict subclasses
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  r53658 | raymond.hettinger | 2007-02-07 22:04:20 +0100 (Wed, 07 Feb 2007) | 1 line

  SF: 1397711 Set docs conflated immutable and hashable
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  r53660 | raymond.hettinger | 2007-02-07 22:42:17 +0100 (Wed, 07 Feb 2007) | 1 line

  Check for a common user error with defaultdict().
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  r53662 | raymond.hettinger | 2007-02-07 23:24:07 +0100 (Wed, 07 Feb 2007) | 1 line

  Bug #1575169: operator.isSequenceType() now returns False for subclasses of dict.
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  r53664 | raymond.hettinger | 2007-02-08 00:49:03 +0100 (Thu, 08 Feb 2007) | 1 line

  Silence compiler warning
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  r53666 | raymond.hettinger | 2007-02-08 01:07:32 +0100 (Thu, 08 Feb 2007) | 1 line

  Do not let overflows in enumerate() and count() pass silently.
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  r53668 | raymond.hettinger | 2007-02-08 01:50:39 +0100 (Thu, 08 Feb 2007) | 1 line

  Bypass set specific optimizations for set and frozenset subclasses.
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  r53670 | raymond.hettinger | 2007-02-08 02:42:35 +0100 (Thu, 08 Feb 2007) | 1 line

  Fix docstring bug
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  r53671 | martin.v.loewis | 2007-02-08 10:13:36 +0100 (Thu, 08 Feb 2007) | 3 lines

  Bug #1653736: Complain about keyword arguments to time.isoformat.
  Will backport to 2.5.
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  r53679 | kurt.kaiser | 2007-02-08 23:58:18 +0100 (Thu, 08 Feb 2007) | 6 lines

  Corrected some bugs in AutoComplete.  Also, Page Up/Down in ACW implemented;
  mouse and cursor selection in ACWindow implemented; double Tab inserts current
  selection and closes ACW (similar to double-click and Return); scroll wheel now
  works in ACW.  Added AutoComplete instructions to IDLE Help.
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  r53689 | martin.v.loewis | 2007-02-09 13:19:32 +0100 (Fri, 09 Feb 2007) | 3 lines

  Bug #1653736: Properly discard third argument to slot_nb_inplace_power.
  Will backport.
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  r53691 | martin.v.loewis | 2007-02-09 13:36:48 +0100 (Fri, 09 Feb 2007) | 4 lines

  Bug #1600860: Search for shared python library in LIBDIR, not
  lib/python/config, on "linux" and "gnu" systems.
  Will backport.
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  r53693 | martin.v.loewis | 2007-02-09 13:58:49 +0100 (Fri, 09 Feb 2007) | 2 lines

  Update broken link. Will backport to 2.5.
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  r53697 | georg.brandl | 2007-02-09 19:48:41 +0100 (Fri, 09 Feb 2007) | 2 lines

  Bug #1656078: typo in in profile docs.
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  r53731 | brett.cannon | 2007-02-11 06:36:00 +0100 (Sun, 11 Feb 2007) | 3 lines

  Change a very minor inconsistency (that is purely cosmetic) in the AST
  definition.
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  r53735 | skip.montanaro | 2007-02-11 19:24:37 +0100 (Sun, 11 Feb 2007) | 1 line

  fix trace.py --ignore-dir
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  r53741 | brett.cannon | 2007-02-11 20:44:41 +0100 (Sun, 11 Feb 2007) | 3 lines

  Check in changed Python-ast.c from a cosmetic change to Python.asdl (in
  r53731).
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  r53751 | brett.cannon | 2007-02-12 04:51:02 +0100 (Mon, 12 Feb 2007) | 5 lines

  Modify Parser/asdl_c.py so that the __version__ number for Python/Python-ast.c
  is specified at the top of the file.  Also add a note that Python/Python-ast.c
  needs to be committed separately after a change to the AST grammar to capture
  the revision number of the change (which is what __version__ is set to).
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  r53752 | lars.gustaebel | 2007-02-12 10:25:53 +0100 (Mon, 12 Feb 2007) | 3 lines

  Bug #1656581: Point out that external file objects are supposed to be
  at position 0.
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  r53754 | martin.v.loewis | 2007-02-12 13:21:10 +0100 (Mon, 12 Feb 2007) | 3 lines

  Patch 1463026: Support default namespace in XMLGenerator.
  Fixes #847665. Will backport.
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  r53757 | armin.rigo | 2007-02-12 17:23:24 +0100 (Mon, 12 Feb 2007) | 4 lines

  Fix the line to what is my guess at the original author's meaning.
  (The line has no effect anyway, but is present because it's
  customary call the base class __init__).
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  r53763 | martin.v.loewis | 2007-02-13 09:34:45 +0100 (Tue, 13 Feb 2007) | 3 lines

  Patch #685268: Consider a package's __path__ in imputil.
  Will backport.
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  r53765 | martin.v.loewis | 2007-02-13 10:49:38 +0100 (Tue, 13 Feb 2007) | 2 lines

  Patch #698833: Support file decryption in zipfile.
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  r53766 | martin.v.loewis | 2007-02-13 11:10:39 +0100 (Tue, 13 Feb 2007) | 3 lines

  Patch #1517891: Make 'a' create the file if it doesn't exist.
  Fixes #1514451.
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  r53767 | martin.v.loewis | 2007-02-13 13:08:24 +0100 (Tue, 13 Feb 2007) | 3 lines

  Bug #1658794: Remove extraneous 'this'.
  Will backport to 2.5.
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  r53769 | martin.v.loewis | 2007-02-13 13:14:19 +0100 (Tue, 13 Feb 2007) | 3 lines

  Patch #1657276: Make NETLINK_DNRTMSG conditional.
  Will backport.
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  r53771 | lars.gustaebel | 2007-02-13 17:09:24 +0100 (Tue, 13 Feb 2007) | 4 lines

  Patch #1647484: Renamed GzipFile's filename attribute to name. The
  filename attribute is still accessible as a property that emits a
  DeprecationWarning.
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  r53772 | lars.gustaebel | 2007-02-13 17:24:00 +0100 (Tue, 13 Feb 2007) | 3 lines

  Strip the '.gz' extension from the filename that is written to the
  gzip header.
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  r53774 | martin.v.loewis | 2007-02-14 11:07:37 +0100 (Wed, 14 Feb 2007) | 2 lines

  Patch #1432399: Add HCI sockets.
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  r53775 | martin.v.loewis | 2007-02-14 12:30:07 +0100 (Wed, 14 Feb 2007) | 2 lines

  Update 1432399 to removal of _BT_SOCKADDR_MEMB.
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  r53776 | martin.v.loewis | 2007-02-14 12:30:56 +0100 (Wed, 14 Feb 2007) | 3 lines

  Ignore directory time stamps when considering
  whether to rerun libffi configure.
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  r53778 | lars.gustaebel | 2007-02-14 15:45:12 +0100 (Wed, 14 Feb 2007) | 4 lines

  A missing binary mode in AppendTest caused failures in Windows
  Buildbot.
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  r53782 | martin.v.loewis | 2007-02-15 10:51:35 +0100 (Thu, 15 Feb 2007) | 2 lines

  Patch #1397848: add the reasoning behind no-resize-on-shrinkage.
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  r53783 | georg.brandl | 2007-02-15 11:37:59 +0100 (Thu, 15 Feb 2007) | 2 lines

  Make functools.wraps() docs a bit clearer.
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  r53785 | georg.brandl | 2007-02-15 12:29:04 +0100 (Thu, 15 Feb 2007) | 2 lines

  Patch #1494140: Add documentation for the new struct.Struct object.
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  r53787 | georg.brandl | 2007-02-15 12:29:55 +0100 (Thu, 15 Feb 2007) | 2 lines

  Add missing \versionadded.
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  r53800 | brett.cannon | 2007-02-15 23:54:39 +0100 (Thu, 15 Feb 2007) | 11 lines

  Update the encoding package's search function to use absolute imports when
  calling __import__.  This helps make the expected search locations for encoding
  modules be more explicit.

  One could use an explicit value for __path__ when making the call to __import__
  to force the exact location searched for encodings.  This would give the most
  strict search path possible if one is worried about malicious code being
  imported.  The unfortunate side-effect of that is that if __path__ was modified
  on 'encodings' on purpose in a safe way it would not be picked up in future
  __import__ calls.
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  r53801 | brett.cannon | 2007-02-16 20:33:01 +0100 (Fri, 16 Feb 2007) | 2 lines

  Make the __import__ call in encodings.__init__ absolute with a level 0 call.
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  r53809 | vinay.sajip | 2007-02-16 23:36:24 +0100 (Fri, 16 Feb 2007) | 1 line

  Minor fix for currentframe (SF #1652788).
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  r53818 | raymond.hettinger | 2007-02-19 03:03:19 +0100 (Mon, 19 Feb 2007) | 3 lines

  Extend work on revision 52962:  Eliminate redundant calls to PyObject_Hash().
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  r53820 | raymond.hettinger | 2007-02-19 05:08:43 +0100 (Mon, 19 Feb 2007) | 1 line

  Add merge() function to heapq.
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  r53821 | raymond.hettinger | 2007-02-19 06:28:28 +0100 (Mon, 19 Feb 2007) | 1 line

  Add tie-breaker count to preserve sort stability.
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  r53822 | raymond.hettinger | 2007-02-19 07:59:32 +0100 (Mon, 19 Feb 2007) | 1 line

  Use C heapreplace() instead of slower _siftup() in pure python.
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  r53823 | raymond.hettinger | 2007-02-19 08:30:21 +0100 (Mon, 19 Feb 2007) | 1 line

  Add test for merge stability
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  r53824 | raymond.hettinger | 2007-02-19 10:14:10 +0100 (Mon, 19 Feb 2007) | 1 line

  Provide an example of defaultdict with non-zero constant factory function.
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  r53825 | lars.gustaebel | 2007-02-19 10:54:47 +0100 (Mon, 19 Feb 2007) | 2 lines

  Moved misplaced news item.
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  r53826 | martin.v.loewis | 2007-02-19 11:55:19 +0100 (Mon, 19 Feb 2007) | 3 lines

  Patch #1490190: posixmodule now includes os.chflags() and os.lchflags()
  functions on platforms where the underlying system calls are available.
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  r53827 | raymond.hettinger | 2007-02-19 19:15:04 +0100 (Mon, 19 Feb 2007) | 1 line

  Fixup docstrings for merge().
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  r53829 | raymond.hettinger | 2007-02-19 21:44:04 +0100 (Mon, 19 Feb 2007) | 1 line

  Fixup set/dict interoperability.
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  r53837 | raymond.hettinger | 2007-02-21 06:20:38 +0100 (Wed, 21 Feb 2007) | 1 line

  Add itertools.izip_longest().
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  r53838 | raymond.hettinger | 2007-02-21 18:22:05 +0100 (Wed, 21 Feb 2007) | 1 line

  Remove filler struct item and fix leak.
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2007-02-23 15:07:44 +00:00

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NOTES ON OPTIMIZING DICTIONARIES
================================
Principal Use Cases for Dictionaries
------------------------------------
Passing keyword arguments
Typically, one read and one write for 1 to 3 elements.
Occurs frequently in normal python code.
Class method lookup
Dictionaries vary in size with 8 to 16 elements being common.
Usually written once with many lookups.
When base classes are used, there are many failed lookups
followed by a lookup in a base class.
Instance attribute lookup and Global variables
Dictionaries vary in size. 4 to 10 elements are common.
Both reads and writes are common.
Builtins
Frequent reads. Almost never written.
Size 126 interned strings (as of Py2.3b1).
A few keys are accessed much more frequently than others.
Uniquification
Dictionaries of any size. Bulk of work is in creation.
Repeated writes to a smaller set of keys.
Single read of each key.
Some use cases have two consecutive accesses to the same key.
* Removing duplicates from a sequence.
dict.fromkeys(seqn).keys()
* Counting elements in a sequence.
for e in seqn:
d[e] = d.get(e,0) + 1
* Accumulating references in a dictionary of lists:
for pagenumber, page in enumerate(pages):
for word in page:
d.setdefault(word, []).append(pagenumber)
Note, the second example is a use case characterized by a get and set
to the same key. There are similar use cases with a __contains__
followed by a get, set, or del to the same key. Part of the
justification for d.setdefault is combining the two lookups into one.
Membership Testing
Dictionaries of any size. Created once and then rarely changes.
Single write to each key.
Many calls to __contains__() or has_key().
Similar access patterns occur with replacement dictionaries
such as with the % formatting operator.
Dynamic Mappings
Characterized by deletions interspersed with adds and replacements.
Performance benefits greatly from the re-use of dummy entries.
Data Layout (assuming a 32-bit box with 64 bytes per cache line)
----------------------------------------------------------------
Smalldicts (8 entries) are attached to the dictobject structure
and the whole group nearly fills two consecutive cache lines.
Larger dicts use the first half of the dictobject structure (one cache
line) and a separate, continuous block of entries (at 12 bytes each
for a total of 5.333 entries per cache line).
Tunable Dictionary Parameters
-----------------------------
* PyDict_MINSIZE. Currently set to 8.
Must be a power of two. New dicts have to zero-out every cell.
Each additional 8 consumes 1.5 cache lines. Increasing improves
the sparseness of small dictionaries but costs time to read in
the additional cache lines if they are not already in cache.
That case is common when keyword arguments are passed.
* Maximum dictionary load in PyDict_SetItem. Currently set to 2/3.
Increasing this ratio makes dictionaries more dense resulting
in more collisions. Decreasing it improves sparseness at the
expense of spreading entries over more cache lines and at the
cost of total memory consumed.
The load test occurs in highly time sensitive code. Efforts
to make the test more complex (for example, varying the load
for different sizes) have degraded performance.
* Growth rate upon hitting maximum load. Currently set to *2.
Raising this to *4 results in half the number of resizes,
less effort to resize, better sparseness for some (but not
all dict sizes), and potentially doubles memory consumption
depending on the size of the dictionary. Setting to *4
eliminates every other resize step.
* Maximum sparseness (minimum dictionary load). What percentage
of entries can be unused before the dictionary shrinks to
free up memory and speed up iteration? (The current CPython
code does not represent this parameter directly.)
* Shrinkage rate upon exceeding maximum sparseness. The current
CPython code never even checks sparseness when deleting a
key. When a new key is added, it resizes based on the number
of active keys, so that the addition may trigger shrinkage
rather than growth.
Tune-ups should be measured across a broad range of applications and
use cases. A change to any parameter will help in some situations and
hurt in others. The key is to find settings that help the most common
cases and do the least damage to the less common cases. Results will
vary dramatically depending on the exact number of keys, whether the
keys are all strings, whether reads or writes dominate, the exact
hash values of the keys (some sets of values have fewer collisions than
others). Any one test or benchmark is likely to prove misleading.
While making a dictionary more sparse reduces collisions, it impairs
iteration and key listing. Those methods loop over every potential
entry. Doubling the size of dictionary results in twice as many
non-overlapping memory accesses for keys(), items(), values(),
__iter__(), iterkeys(), iteritems(), itervalues(), and update().
Also, every dictionary iterates at least twice, once for the memset()
when it is created and once by dealloc().
Dictionary operations involving only a single key can be O(1) unless
resizing is possible. By checking for a resize only when the
dictionary can grow (and may *require* resizing), other operations
remain O(1), and the odds of resize thrashing or memory fragmentation
are reduced. In particular, an algorithm that empties a dictionary
by repeatedly invoking .pop will see no resizing, which might
not be necessary at all because the dictionary is eventually
discarded entirely.
Results of Cache Locality Experiments
-------------------------------------
When an entry is retrieved from memory, 4.333 adjacent entries are also
retrieved into a cache line. Since accessing items in cache is *much*
cheaper than a cache miss, an enticing idea is to probe the adjacent
entries as a first step in collision resolution. Unfortunately, the
introduction of any regularity into collision searches results in more
collisions than the current random chaining approach.
Exploiting cache locality at the expense of additional collisions fails
to payoff when the entries are already loaded in cache (the expense
is paid with no compensating benefit). This occurs in small dictionaries
where the whole dictionary fits into a pair of cache lines. It also
occurs frequently in large dictionaries which have a common access pattern
where some keys are accessed much more frequently than others. The
more popular entries *and* their collision chains tend to remain in cache.
To exploit cache locality, change the collision resolution section
in lookdict() and lookdict_string(). Set i^=1 at the top of the
loop and move the i = (i << 2) + i + perturb + 1 to an unrolled
version of the loop.
This optimization strategy can be leveraged in several ways:
* If the dictionary is kept sparse (through the tunable parameters),
then the occurrence of additional collisions is lessened.
* If lookdict() and lookdict_string() are specialized for small dicts
and for largedicts, then the versions for large_dicts can be given
an alternate search strategy without increasing collisions in small dicts
which already have the maximum benefit of cache locality.
* If the use case for a dictionary is known to have a random key
access pattern (as opposed to a more common pattern with a Zipf's law
distribution), then there will be more benefit for large dictionaries
because any given key is no more likely than another to already be
in cache.
* In use cases with paired accesses to the same key, the second access
is always in cache and gets no benefit from efforts to further improve
cache locality.
Optimizing the Search of Small Dictionaries
-------------------------------------------
If lookdict() and lookdict_string() are specialized for smaller dictionaries,
then a custom search approach can be implemented that exploits the small
search space and cache locality.
* The simplest example is a linear search of contiguous entries. This is
simple to implement, guaranteed to terminate rapidly, never searches
the same entry twice, and precludes the need to check for dummy entries.
* A more advanced example is a self-organizing search so that the most
frequently accessed entries get probed first. The organization
adapts if the access pattern changes over time. Treaps are ideally
suited for self-organization with the most common entries at the
top of the heap and a rapid binary search pattern. Most probes and
results are all located at the top of the tree allowing them all to
be located in one or two cache lines.
* Also, small dictionaries may be made more dense, perhaps filling all
eight cells to take the maximum advantage of two cache lines.
Strategy Pattern
----------------
Consider allowing the user to set the tunable parameters or to select a
particular search method. Since some dictionary use cases have known
sizes and access patterns, the user may be able to provide useful hints.
1) For example, if membership testing or lookups dominate runtime and memory
is not at a premium, the user may benefit from setting the maximum load
ratio at 5% or 10% instead of the usual 66.7%. This will sharply
curtail the number of collisions but will increase iteration time.
The builtin namespace is a prime example of a dictionary that can
benefit from being highly sparse.
2) Dictionary creation time can be shortened in cases where the ultimate
size of the dictionary is known in advance. The dictionary can be
pre-sized so that no resize operations are required during creation.
Not only does this save resizes, but the key insertion will go
more quickly because the first half of the keys will be inserted into
a more sparse environment than before. The preconditions for this
strategy arise whenever a dictionary is created from a key or item
sequence and the number of *unique* keys is known.
3) If the key space is large and the access pattern is known to be random,
then search strategies exploiting cache locality can be fruitful.
The preconditions for this strategy arise in simulations and
numerical analysis.
4) If the keys are fixed and the access pattern strongly favors some of
the keys, then the entries can be stored contiguously and accessed
with a linear search or treap. This exploits knowledge of the data,
cache locality, and a simplified search routine. It also eliminates
the need to test for dummy entries on each probe. The preconditions
for this strategy arise in symbol tables and in the builtin dictionary.
Readonly Dictionaries
---------------------
Some dictionary use cases pass through a build stage and then move to a
more heavily exercised lookup stage with no further changes to the
dictionary.
An idea that emerged on python-dev is to be able to convert a dictionary
to a read-only state. This can help prevent programming errors and also
provide knowledge that can be exploited for lookup optimization.
The dictionary can be immediately rebuilt (eliminating dummy entries),
resized (to an appropriate level of sparseness), and the keys can be
jostled (to minimize collisions). The lookdict() routine can then
eliminate the test for dummy entries (saving about 1/4 of the time
spent in the collision resolution loop).
An additional possibility is to insert links into the empty spaces
so that dictionary iteration can proceed in len(d) steps instead of
(mp->mask + 1) steps. Alternatively, a separate tuple of keys can be
kept just for iteration.
Caching Lookups
---------------
The idea is to exploit key access patterns by anticipating future lookups
based on previous lookups.
The simplest incarnation is to save the most recently accessed entry.
This gives optimal performance for use cases where every get is followed
by a set or del to the same key.