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| PEP: 203 | |
| Title: Augmented Assignments | |
| Version: $Revision$ | |
| Last-Modified: $Date$ | |
| Author: thomas@python.org (Thomas Wouters) | |
| Status: Final | |
| Type: Standards Track | |
| Content-Type: text/x-rst | |
| Created: 13-Jul-2000 | |
| Python-Version: 2.0 | |
| Post-History: 14-Aug-2000 | |
| Introduction | |
| ============ | |
| This PEP describes the *augmented assignment* proposal for Python 2.0. This | |
| PEP tracks the status and ownership of this feature, slated for introduction | |
| in Python 2.0. It contains a description of the feature and outlines changes | |
| necessary to support the feature. This PEP summarizes discussions held in | |
| mailing list forums [1]_, and provides URLs for further information where | |
| appropriate. The CVS revision history of this file contains the definitive | |
| historical record. | |
| Proposed Semantics | |
| ================== | |
| The proposed patch that adds augmented assignment to Python introduces the | |
| following new operators:: | |
| += -= *= /= %= **= <<= >>= &= ^= |= | |
| They implement the same operator as their normal binary form, except that the | |
| operation is done *in-place* when the left-hand side object supports it, and | |
| that the left-hand side is only evaluated once. | |
| They truly behave as augmented assignment, in that they perform all of the | |
| normal load and store operations, in addition to the binary operation they are | |
| intended to do. So, given the expression:: | |
| x += y | |
| The object ``x`` is loaded, then ``y`` is added to it, and the resulting | |
| object is stored back in the original place. The precise action performed on | |
| the two arguments depends on the type of ``x``, and possibly of ``y``. | |
| The idea behind augmented assignment in Python is that it isn't just an easier | |
| way to write the common practice of storing the result of a binary operation | |
| in its left-hand operand, but also a way for the left-hand operand in question | |
| to know that it should operate *on itself*, rather than creating a modified | |
| copy of itself. | |
| To make this possible, a number of new *hooks* are added to Python classes and | |
| C extension types, which are called when the object in question is used as the | |
| left hand side of an augmented assignment operation. If the class or type | |
| does not implement the *in-place* hooks, the normal hooks for the particular | |
| binary operation are used. | |
| So, given an instance object ``x``, the expression:: | |
| x += y | |
| tries to call ``x.__iadd__(y)``, which is the *in-place* variant of | |
| ``__add__`` . If ``__iadd__`` is not present, ``x.__add__(y)`` is attempted, | |
| and finally ``y.__radd__(x)`` if ``__add__`` is missing too. There is no | |
| *right-hand-side* variant of ``__iadd__``, because that would require for | |
| ``y`` to know how to in-place modify ``x``, which is unsafe to say the least. | |
| The ``__iadd__`` hook should behave similar to ``__add__``, returning the | |
| result of the operation (which could be ``self``) which is to be assigned to | |
| the variable ``x``. | |
| For C extension types, the *hooks* are members of the ``PyNumberMethods`` and | |
| ``PySequenceMethods`` structures. Some special semantics apply to make the | |
| use of these methods, and the mixing of Python instance objects and C types, | |
| as unsurprising as possible. | |
| In the generic case of ``x <augop> y`` (or a similar case using the | |
| ``PyNumber_InPlace`` API functions) the principal object being operated on is | |
| ``x``. This differs from normal binary operations, where ``x`` and ``y`` | |
| could be considered *co-operating*, because unlike in binary operations, the | |
| operands in an in-place operation cannot be swapped. However, in-place | |
| operations do fall back to normal binary operations when in-place modification | |
| is not supported, resulting in the following rules: | |
| - If the left-hand object (``x``) is an instance object, and it has a | |
| ``__coerce__`` method, call that function with ``y`` as the argument. If | |
| coercion succeeds, and the resulting left-hand object is a different object | |
| than ``x``, stop processing it as in-place and call the appropriate function | |
| for the normal binary operation, with the coerced ``x`` and ``y`` as | |
| arguments. The result of the operation is whatever that function returns. | |
| If coercion does not yield a different object for ``x``, or ``x`` does not | |
| define a ``__coerce__`` method, and ``x`` has the appropriate ``__ihook__`` | |
| for this operation, call that method with ``y`` as the argument, and the | |
| result of the operation is whatever that method returns. | |
| - Otherwise, if the left-hand object is not an instance object, but its type | |
| does define the in-place function for this operation, call that function | |
| with ``x`` and ``y`` as the arguments, and the result of the operation is | |
| whatever that function returns. | |
| Note that no coercion on either ``x`` or ``y`` is done in this case, and | |
| it's perfectly valid for a C type to receive an instance object as the | |
| second argument; that is something that cannot happen with normal binary | |
| operations. | |
| - Otherwise, process it exactly as a normal binary operation (not in-place), | |
| including argument coercion. In short, if either argument is an instance | |
| object, resolve the operation through ``__coerce__``, ``__hook__`` and | |
| ``__rhook__``. Otherwise, both objects are C types, and they are coerced | |
| and passed to the appropriate function. | |
| - If no way to process the operation can be found, raise a ``TypeError`` with | |
| an error message specific to the operation. | |
| - Some special casing exists to account for the case of ``+`` and ``*``, | |
| which have a special meaning for sequences: for ``+``, sequence | |
| concatenation, no coercion what so ever is done if a C type defines | |
| ``sq_concat`` or ``sq_inplace_concat``. For ``*``, sequence repeating, | |
| ``y`` is converted to a C integer before calling either | |
| ``sq_inplace_repeat`` and ``sq_repeat``. This is done even if ``y`` is an | |
| instance, though not if ``x`` is an instance. | |
| The in-place function should always return a new reference, either to the | |
| old ``x`` object if the operation was indeed performed in-place, or to a new | |
| object. | |
| Rationale | |
| ========= | |
| There are two main reasons for adding this feature to Python: simplicity of | |
| expression, and support for in-place operations. The end result is a tradeoff | |
| between simplicity of syntax and simplicity of expression; like most new | |
| features, augmented assignment doesn't add anything that was previously | |
| impossible. It merely makes these things easier to do. | |
| Adding augmented assignment will make Python's syntax more complex. Instead | |
| of a single assignment operation, there are now twelve assignment operations, | |
| eleven of which also perform a binary operation. However, these eleven new | |
| forms of assignment are easy to understand as the coupling between assignment | |
| and the binary operation, and they require no large conceptual leap to | |
| understand. Furthermore, languages that do have augmented assignment have | |
| shown that they are a popular, much used feature. Expressions of the form:: | |
| <x> = <x> <operator> <y> | |
| are common enough in those languages to make the extra syntax worthwhile, and | |
| Python does not have significantly fewer of those expressions. Quite the | |
| opposite, in fact, since in Python you can also concatenate lists with a | |
| binary operator, something that is done quite frequently. Writing the above | |
| expression as:: | |
| <x> <operator>= <y> | |
| is both more readable and less error prone, because it is instantly obvious to | |
| the reader that it is ``<x>`` that is being changed, and not ``<x>`` that is | |
| being replaced by something almost, but not quite, entirely unlike ``<x>``. | |
| The new in-place operations are especially useful to matrix calculation and | |
| other applications that require large objects. In order to efficiently deal | |
| with the available program memory, such packages cannot blindly use the | |
| current binary operations. Because these operations always create a new | |
| object, adding a single item to an existing (large) object would result in | |
| copying the entire object (which may cause the application to run out of | |
| memory), add the single item, and then possibly delete the original object, | |
| depending on reference count. | |
| To work around this problem, the packages currently have to use methods or | |
| functions to modify an object in-place, which is definitely less readable than | |
| an augmented assignment expression. Augmented assignment won't solve all the | |
| problems for these packages, since some operations cannot be expressed in the | |
| limited set of binary operators to start with, but it is a start. :pep:`211` | |
| is looking at adding new operators. | |
| New methods | |
| =========== | |
| The proposed implementation adds the following 11 possible *hooks* which | |
| Python classes can implement to overload the augmented assignment operations:: | |
| __iadd__ | |
| __isub__ | |
| __imul__ | |
| __idiv__ | |
| __imod__ | |
| __ipow__ | |
| __ilshift__ | |
| __irshift__ | |
| __iand__ | |
| __ixor__ | |
| __ior__ | |
| The *i* in ``__iadd__`` stands for *in-place*. | |
| For C extension types, the following struct members are added. | |
| To ``PyNumberMethods``:: | |
| binaryfunc nb_inplace_add; | |
| binaryfunc nb_inplace_subtract; | |
| binaryfunc nb_inplace_multiply; | |
| binaryfunc nb_inplace_divide; | |
| binaryfunc nb_inplace_remainder; | |
| binaryfunc nb_inplace_power; | |
| binaryfunc nb_inplace_lshift; | |
| binaryfunc nb_inplace_rshift; | |
| binaryfunc nb_inplace_and; | |
| binaryfunc nb_inplace_xor; | |
| binaryfunc nb_inplace_or; | |
| To ``PySequenceMethods``:: | |
| binaryfunc sq_inplace_concat; | |
| intargfunc sq_inplace_repeat; | |
| In order to keep binary compatibility, the ``tp_flags`` TypeObject member is | |
| used to determine whether the TypeObject in question has allocated room for | |
| these slots. Until a clean break in binary compatibility is made (which may | |
| or may not happen before 2.0) code that wants to use one of the new struct | |
| members must first check that they are available with the | |
| ``PyType_HasFeature()`` macro:: | |
| if (PyType_HasFeature(x->ob_type, Py_TPFLAGS_HAVE_INPLACE_OPS) && | |
| x->ob_type->tp_as_number && x->ob_type->tp_as_number->nb_inplace_add) { | |
| /* ... */ | |
| This check must be made even before testing the method slots for ``NULL`` | |
| values! The macro only tests whether the slots are available, not whether | |
| they are filled with methods or not. | |
| Implementation | |
| ============== | |
| The current implementation of augmented assignment [2]_ adds, in addition to | |
| the methods and slots already covered, 13 new bytecodes and 13 new API | |
| functions. | |
| The API functions are simply in-place versions of the current binary-operation | |
| API functions:: | |
| PyNumber_InPlaceAdd(PyObject *o1, PyObject *o2); | |
| PyNumber_InPlaceSubtract(PyObject *o1, PyObject *o2); | |
| PyNumber_InPlaceMultiply(PyObject *o1, PyObject *o2); | |
| PyNumber_InPlaceDivide(PyObject *o1, PyObject *o2); | |
| PyNumber_InPlaceRemainder(PyObject *o1, PyObject *o2); | |
| PyNumber_InPlacePower(PyObject *o1, PyObject *o2); | |
| PyNumber_InPlaceLshift(PyObject *o1, PyObject *o2); | |
| PyNumber_InPlaceRshift(PyObject *o1, PyObject *o2); | |
| PyNumber_InPlaceAnd(PyObject *o1, PyObject *o2); | |
| PyNumber_InPlaceXor(PyObject *o1, PyObject *o2); | |
| PyNumber_InPlaceOr(PyObject *o1, PyObject *o2); | |
| PySequence_InPlaceConcat(PyObject *o1, PyObject *o2); | |
| PySequence_InPlaceRepeat(PyObject *o, int count); | |
| They call either the Python class hooks (if either of the objects is a Python | |
| class instance) or the C type's number or sequence methods. | |
| The new bytecodes are:: | |
| INPLACE_ADD | |
| INPLACE_SUBTRACT | |
| INPLACE_MULTIPLY | |
| INPLACE_DIVIDE | |
| INPLACE_REMAINDER | |
| INPLACE_POWER | |
| INPLACE_LEFTSHIFT | |
| INPLACE_RIGHTSHIFT | |
| INPLACE_AND | |
| INPLACE_XOR | |
| INPLACE_OR | |
| ROT_FOUR | |
| DUP_TOPX | |
| The ``INPLACE_*`` bytecodes mirror the ``BINARY_*`` bytecodes, except that | |
| they are implemented as calls to the ``InPlace`` API functions. The other two | |
| bytecodes are *utility* bytecodes: ``ROT_FOUR`` behaves like ``ROT_THREE`` | |
| except that the four topmost stack items are rotated. | |
| ``DUP_TOPX`` is a bytecode that takes a single argument, which should be an | |
| integer between 1 and 5 (inclusive) which is the number of items to duplicate | |
| in one block. Given a stack like this (where the right side of the list is | |
| the *top* of the stack):: | |
| [1, 2, 3, 4, 5] | |
| ``DUP_TOPX 3`` would duplicate the top 3 items, resulting in this stack:: | |
| [1, 2, 3, 4, 5, 3, 4, 5] | |
| ``DUP_TOPX`` with an argument of 1 is the same as ``DUP_TOP``. The limit of 5 | |
| is purely an implementation limit . The implementation of augmented | |
| assignment requires only ``DUP_TOPX`` with an argument of 2 and 3, and could | |
| do without this new opcode at the cost of a fair number of ``DUP_TOP`` and | |
| ``ROT_*``. | |
| Open Issues | |
| =========== | |
| The ``PyNumber_InPlace`` API is only a subset of the normal ``PyNumber`` API: | |
| only those functions that are required to support the augmented assignment | |
| syntax are included. If other in-place API functions are needed, they can be | |
| added later. | |
| The ``DUP_TOPX`` bytecode is a conveniency bytecode, and is not actually | |
| necessary. It should be considered whether this bytecode is worth having. | |
| There seems to be no other possible use for this bytecode at this time. | |
| Copyright | |
| ========= | |
| This document has been placed in the public domain. | |
| References | |
| ========== | |
| .. [1] http://www.python.org/pipermail/python-list/2000-June/059556.html | |
| .. [2] http://sourceforge.net/patch?func=detailpatch&patch_id=100699&group_id=5470 | |
| .. | |
| Local Variables: | |
| mode: indented-text | |
| indent-tabs-mode: nil | |
| End: |