2006-01-10 16:06:23 -05:00
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PEP: 353
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Title: Using ssize_t as the index type
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Version: $Revision$
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Last-Modified: $Date$
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2006-03-02 14:54:50 -05:00
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Author: Martin v. Löwis <martin@v.loewis.de>
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2006-02-28 18:28:21 -05:00
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Status: Final
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2006-01-10 16:06:23 -05:00
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Type: Standards Track
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Content-Type: text/x-rst
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Created: 18-Dec-2005
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Post-History:
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Abstract
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========
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In Python 2.4, indices of sequences are restricted to the C type
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int. On 64-bit machines, sequences therefore cannot use the full
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address space, and are restricted to 2**31 elements. This PEP proposes
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to change this, introducing a platform-specific index type
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Py_ssize_t. An implementation of the proposed change is in
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http://svn.python.org/projects/python/branches/ssize_t.
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Rationale
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=========
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64-bit machines are becoming more popular, and the size of main memory
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increases beyond 4GiB. On such machines, Python currently is limited,
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in that sequences (strings, unicode objects, tuples, lists,
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array.arrays, ...) cannot contain more than 2GiElements.
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Today, very few machines have memory to represent larger lists: as
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each pointer is 8B (in a 64-bit machine), one needs 16GiB to just hold
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the pointers of such a list; with data in the list, the memory
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consumption grows even more. However, there are three container types
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for which users request improvements today:
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* strings (currently restricted to 2GiB)
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* mmap objects (likewise; plus the system typically
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won't keep the whole object in memory concurrently)
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* Numarray objects (from Numerical Python)
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As the proposed change will cause incompatibilities on 64-bit
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machines, it should be carried out while such machines are not in wide
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use (IOW, as early as possible).
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Specification
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=============
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A new type Py_ssize_t is introduced, which has the same size as the
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compiler's size_t type, but is signed. It will be a typedef for
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ssize_t where available.
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The internal representation of the length fields of all container
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types is changed from int to ssize_t, for all types included in the
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standard distribution. In particular, PyObject_VAR_HEAD is changed to
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use Py_ssize_t, affecting all extension modules that use that macro.
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All occurrences of index and length parameters and results are changed
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2006-02-12 04:36:52 -05:00
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to use Py_ssize_t, including the sequence slots in type objects, and
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the buffer interface.
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2006-01-10 16:06:23 -05:00
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New conversion functions PyInt_FromSsize_t and PyInt_AsSsize_t, are
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introduced. PyInt_FromSsize_t will transparently return a long int
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object if the value exceeds the LONG_MAX; PyInt_AsSsize_t will
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transparently process long int objects.
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New function pointer typedefs ssizeargfunc, ssizessizeargfunc,
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2006-02-12 04:36:52 -05:00
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ssizeobjargproc, and ssizessizeobjargproc are introduced. The
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buffer interface function types are now called readbufferproc,
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writebufferproc, segcountproc, and charbufferproc.
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2006-01-10 16:06:23 -05:00
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A new conversion code 'n' is introduced for PyArg_ParseTuple
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and Py_BuildValue, which operates on Py_ssize_t.
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The conversion codes 's#' and 't#' will output Py_ssize_t
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if the macro PY_SSIZE_T_CLEAN is defined before Python.h
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2006-01-10 16:06:23 -05:00
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is included, and continue to output int if that macro
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isn't defined.
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At places where a conversion from size_t/Py_ssize_t to
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int is necessary, the strategy for conversion is chosen
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on a case-by-case basis (see next section).
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2006-02-12 04:13:57 -05:00
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To prevent loading extension modules that assume a 32-bit
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size type into an interpreter that has a 64-bit size type,
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Py_InitModule4 is renamed to Py_InitModule4_64.
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2006-01-10 16:06:23 -05:00
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Conversion guidelines
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=====================
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Module authors have the choice whether they support this PEP in their
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code or not; if they support it, they have the choice of different
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levels of compatibility.
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If a module is not converted to support this PEP, it will continue to
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work unmodified on a 32-bit system. On a 64-bit system, compile-time
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errors and warnings might be issued, and the module might crash the
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interpreter if the warnings are ignored.
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Conversion of a module can either attempt to continue using int
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indices, or use Py_ssize_t indices throughout.
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If the module should continue to use int indices, care must be taken
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when calling functions that return Py_ssize_t or size_t, in
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particular, for functions that return the length of an object (this
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includes the strlen function and the sizeof operator). A good compiler
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will warn when a Py_ssize_t/size_t value is truncated into an int.
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In these cases, three strategies are available:
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* statically determine that the size can never exceed an int
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(e.g. when taking the sizeof a struct, or the strlen of
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a file pathname). In this case, write::
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some_int = Py_SAFE_DOWNCAST(some_value, Py_ssize_t, int);
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This will add an assertion in debug mode that the value
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really fits into an int, and just add a cast otherwise.
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* statically determine that the value shouldn't overflow an
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int unless there is a bug in the C code somewhere. Test
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whether the value is smaller than INT_MAX, and raise an
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InternalError if it isn't.
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* otherwise, check whether the value fits an int, and raise
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a ValueError if it doesn't.
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The same care must be taking for tp_as_sequence slots, in
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addition, the signatures of these slots change, and the
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slots must be explicitly recast (e.g. from intargfunc
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to ssizeargfunc). Compatibility with previous Python
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versions can be achieved with the test::
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#if PY_VERSION_HEX < 0x02050000
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typedef int Py_ssize_t;
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#endif
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and then using Py_ssize_t in the rest of the code. For
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the tp_as_sequence slots, additional typedefs might
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be necessary; alternatively, by replacing::
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PyObject* foo_item(struct MyType* obj, int index)
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{
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...
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}
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with::
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PyObject* foo_item(PyObject* _obj, Py_ssize_t index)
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{
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struct MyType* obj = (struct MyType*)_obj;
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...
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}
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it becomes possible to drop the cast entirely; the type
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of foo_item should then match the sq_item slot in all
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Python versions.
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If the module should be extended to use Py_ssize_t indices, all usages
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of the type int should be reviewed, to see whether it should be
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changed to Py_ssize_t. The compiler will help in finding the spots,
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but a manual review is still necessary.
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Particular care must be taken for PyArg_ParseTuple calls:
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they need all be checked for s# and t# converters, and
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PY_SIZE_T_CLEAN must be defined before including Python.h
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if the calls have been updated accordingly.
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Discussion
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==========
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Why not size_t
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--------------
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An initial attempt to implement this feature tried to use
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size_t. It quickly turned out that this cannot work: Python
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uses negative indices in many places (to indicate counting
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from the end). Even in places where size_t would be usable,
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2006-02-12 17:00:52 -05:00
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too many reformulations of code where necessary, e.g. in
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loops like::
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for(index = length-1; index >= 0; index--)
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This loop will never terminate if index is changed from
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int to size_t.
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Why not Py_intptr_t
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-------------------
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Conceptually, Py_intptr_t and Py_ssize_t are different things:
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Py_intptr_t needs to be the same size as void*, and Py_ssize_t
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the same size as size_t. These could differ, e.g. on machines
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where pointers have segment and offset. On current flat-address
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space machines, there is no difference, so for all practical
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purposes, Py_intptr_t would have worked as well.
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Doesn't this break much code?
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-----------------------------
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With the changes proposed, code breakage is fairly
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minimal. On a 32-bit system, no code will break, as
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Py_ssize_t is just a typedef for int.
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On a 64-bit system, the compiler will warn in many
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places. If these warnings are ignored, the code will
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continue to work as long as the container sizes don't
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exceeed 2**31, i.e. it will work nearly as good as
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it does currently. There are two exceptions to this
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statement: if the extension module implements the
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sequence protocol, it must be updated, or the calling
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conventions will be wrong. The other exception is
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the places where Py_ssize_t is output through a
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pointer (rather than a return value); this applies
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most notably to codecs and slice objects.
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If the conversion of the code is made, the same code
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can continue to work on earlier Python releases.
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Doesn't this consume too much memory?
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-------------------------------------
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One might think that using Py_ssize_t in all tuples,
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strings, lists, etc. is a waste of space. This is
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not true, though: on a 32-bit machine, there is no
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change. On a 64-bit machine, the size of many
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containers doesn't change, e.g.
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* in lists and tuples, a pointer immediately follows
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the ob_size member. This means that the compiler
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currently inserts a 4 padding bytes; with the
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change, these padding bytes become part of the size.
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* in strings, the ob_shash field follows ob_size.
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This field is of type long, which is a 64-bit
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type on most 64-bit systems (except Win64), so
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the compiler inserts padding before it as well.
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2006-01-10 16:21:39 -05:00
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Open Issues
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===========
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* Marc-Andre Lemburg commented that complete backwards
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compatibility with existing source code should be
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preserved. In particular, functions that have
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Py_ssize_t* output arguments should continue to run
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correctly even if the callers pass int*.
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It is not clear what strategy could be used to implement
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that requirement.
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2006-01-10 16:06:23 -05:00
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Copyright
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=========
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This document has been placed in the public domain.
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..
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Local Variables:
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mode: indented-text
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indent-tabs-mode: nil
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sentence-end-double-space: t
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fill-column: 70
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2006-03-02 14:54:50 -05:00
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coding: utf-8
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2006-01-10 16:06:23 -05:00
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End:
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