| Project: core implementation |
| **************************** |
| |
| Still to do |
| ----------- |
| |
| Add __del__ handlers? |
| |
| Allow assignment to __bases__ and __dict__? |
| |
| Support mixed multiple inheritance from classic and new-style classes? |
| |
| Check for conflicts between base classes. I fear that the rules used |
| to decide whether multiple bases have conflicting instance variables |
| aren't strict enough. I think that sometimes two different classes |
| adding __dict__ may be incompatible after all. |
| |
| Check for order conflicts. Suppose there are two base classes X and |
| Y. Suppose class B derives from X and Y, and class C from Y and X (in |
| that order). Now suppose class D derives from B and C. In which |
| order should the base classes X and Y be searched? This is an order |
| conflict, and should be disallowed; currently the test for this is not |
| implemented. |
| |
| Done (mostly) |
| ------------- |
| |
| More performance work -- one particular test, test_descr.inherits(), |
| is still about 50% slower with dynamic classes. :-( The approach of |
| choice would be: |
| |
| Add a list of weak refs to derived classes to each dynamic |
| class, and trap setattr+delattr on the base class so that they |
| update the tp_XXX slot in each derived class when the base class |
| __XXX__ gets set or deleted. More work, but more gain (zero waste |
| in slot_tp_XXX when __XXX__ is not overridden). |
| *** That's done now, with great success. *** |
| |
| Make __dynamic__ the default. *** done (but more performance work |
| needs to be done). *** |
| |
| Treat all binary operators the same way as I just did for rich |
| comparison: in a <op> b, if type(a) is not type(b) and isinstance(b, |
| type(a)), try b.__rop__(a) before trying a.__op__(b). *** Done. *** |
| |
| Fix comparisons. There's some nasty stuff here: when two types are |
| not the same, and they're not instances, the fallback code doesn't |
| account for the possibility that they might be subtypes of a common |
| base type that defines a comparison. *** I believe this is now done, |
| but it's a bit of a mess. *** |
| |
| Allow __class__ assignment. *** done *** |
| |
| Change __getattr__ to be more like classic __getattr__, and introduce |
| a new name for new-style __getattr__. *** Done. The new-style method |
| is called __getattribute__. *** |
| |
| Make inspect and pydoc do the right thing for new-style classes. *** |
| done *** |
| |
| Do binary operators properly. nb_add should try to call self.__add__ |
| and other.__radd__. I think I'll exclude base types that define any |
| binary operator without setting the CHECKTYPES flag. *** This is |
| done, AFAICT. Even supports __truediv__ and __floordiv__. *** |
| |
| Fix subtype_dealloc(). This currently searches through the list of |
| base types until it finds a type whose tp_dealloc is not |
| subtype_dealloc. I think this is not safe. I think the alloc/dealloc |
| policy needs to be rethought. *** There's an idea here that I haven't |
| worked out yet: just as object creation now has separate API's tp_new, |
| tp_alloc, and tp_init, destruction has tp_dealloc and tp_free. (Maybe |
| tp_fini should be added to correspond to tp_init?) Something |
| could/should be done with this. *** |
| |
| Clean up isinstance(), issubclass() and their C equivalents. There |
| are a bunch of different APIs here and not all of them do the right |
| thing yet. There should be fewer APIs and their implementation should |
| be simpler. The old "abstract subclass" test should probably |
| disappear (if we want to root out ExtensionClass). *** I think I've |
| done 90% of this by creating PyType_IsSubtype() and using it |
| appropriately. For now, the old "abstract subclass" test is still |
| there, and there may be some places where PyObject_IsSubclass() is |
| called where PyType_IsSubtype() would be more appropriate. *** |
| |
| Clean up the GC interface. Currently, tp_basicsize includes the GC |
| head size iff tp_flags includes the GC flag bit. This makes object |
| size math a pain (e.g. to see if two object types have the same |
| instance size, you can't just compare the tp_basicsize fields -- you |
| have to conditionally subtract the GC head size). Neil has a patch |
| that improves the API in this area, but it's backwards incompatible. |
| (http://sf.net/tracker/?func=detail&aid=421893&group_id=5470&atid=305470) |
| I think I know of a way to fix the incompatibility (by switching to a |
| different flag bit). *** Tim proposed a better idea: macros to access |
| tp_basicsize while hiding the nastiness. This is done now, so I think |
| the rest of this task needn't be done. *** *** Neil checked in a |
| much improved version of his idea, and it's all squared away. *** |
| |
| Make the __dict__ of types declared with Python class statements |
| writable -- only statically declared types must have an immutable |
| dict, because they're shared between interpreter instances. Possibly |
| trap writes to the __dict__ to update the corresponding tp_<slot> if |
| an __<slot>__ name is affected. *** Done as part of the next task. *** |
| |
| It should be an option (maybe a different metaclass, maybe a flag) to |
| *not* merge __dict__ with all the bases, but instead search the |
| __dict__ (or __introduced__?) of all bases in __mro__ order. (This is |
| needed anyway to unify classes completely.) *** Partly done. |
| Inheritance of slots from bases is still icky: (1) MRO is not always |
| respected when inheriting slots; (2) dynamic classes can't add slot |
| implementations in Python after creation (e.g., setting C.__hash__ |
| doesn't set the tp_hash slot). *** |
| |
| Universal base class (object). How can we make the object class |
| subclassable and define simple default methods for everything without |
| having these inherited by built-in types that don't want these |
| defaults? *** Done, really. *** |
| |
| Add error checking to the MRO calculation. *** Done. *** |
| |
| Make __new__ overridable through a Python class method (!). Make more |
| of the sub-algorithms of type construction available as methods. *** |
| After I implemented class methods, I found that in order to be able |
| to make an upcall to Base.__new__() and have it create an instance of |
| your class (rather than a Base instance), you can't use class methods |
| -- you must use static methods. So I've implemented those too. I've |
| hooked up __new__ in the right places, so the first part of this is |
| now done. I've also exported the MRO calculation and made it |
| overridable, as metamethod mro(). I believe that closes this topic |
| for now. I expect that some warts will only be really debugged when |
| we try to use this for some, eh, interesting types such as tuples. *** |
| |
| There was a sequel to the __new__ story (see checkins). There |
| still is a problem: object.__new__ now no longer exists, because |
| it was inherited by certain extension types that could break. But |
| now when I write |
| |
| class C(object): |
| def __new__(cls, *args): |
| "How do I call the default __new__ implementation???" |
| |
| This was resolved nicely by putting object.__new__ back but not |
| inheriting __new__ from object when the subtype is a built-in or |
| extension type. |
| |
| More -- I'm sure new issues will crop up as we go. |
| |
| |
| Project: loose ends and follow-through |
| ************************************** |
| |
| Still to do |
| ----------- |
| |
| Exceptions should be types. This changes the rules, since now almost |
| anything can be raised (as maybe it should). Or should we strive for |
| enforcement of the convention that all exceptions should be derived |
| from Exception? String exceptions will be another hassle, to be |
| deprecated and eventually ruled out. |
| |
| Standardize a module containing names for all built-in types, and |
| standardize on names. E.g. should the official name of the string |
| type be 'str', 'string', or 'StringType'? |
| |
| Create a hierarchy of types, so that e.g. int and long are both |
| subtypes of an abstract base type integer, which is itself a subtype |
| of number, etc. A lot of thinking can go into this! |
| |
| *** NEW TASK??? *** |
| Implement "signature" objects. These are alluded to in PEP 252 but |
| not yet specified. Supposedly they provide an easily usable API to |
| find out about function/method arguments. Building these for Python |
| functions is simple. Building these for built-in functions will |
| require a change to the PyMethodDef structure, so that a type can |
| provide signature information for its C methods. (This would also |
| help in supporting keyword arguments for C methods with less work than |
| PyArg_ParseTupleAndKeywords() currently requires.) But should we do |
| this? It's additional work and not required for any of the other |
| parts. |
| |
| Done (mostly) |
| ------------- |
| |
| Make more (most?) built-in types act as their own factory functions. |
| *** Done for all reasonable built-in types. *** |
| |
| Make more (most?) built-in types subtypable -- with or without |
| overridable allocation. *** This includes descriptors! It should be |
| possible to write descriptors in Python, so metaclasses can do clever |
| things with them. *** *** Done for most reasonable built-in types, |
| except for descriptors *** |
| |
| |
| Project: making classes use the new machinery |
| ********************************************* |
| |
| Tasks: |
| |
| Try to get rid of all code in classobject.c by deferring to the new |
| mechanisms. How far can we get without breaking backwards |
| compatibility? This is underspecified because I haven't thought much |
| about it yet. Can we lose the use of PyInstance_Check() everywhere? |
| I would hope so! *** I'm dropping this goal for now -- classic |
| classes will be 99% unchanged. *** |
| |
| |
| Project: backwards compatibility |
| ******************************** |
| |
| Tasks: |
| |
| Make sure all code checks the proper tp_flags bit before accessing |
| type object fields. |
| |
| Identify areas of incompatibility with Python 2.1. Design solutions. |
| Implement and test. |
| |
| Some specific areas: a fair amount of code probably depends on |
| specific types having __members__ and/or __methods__ attributes. |
| These are currently not present (conformant to PEP 252, which proposes |
| to drop them) but we may have to add them back. This can be done in a |
| generic way with not too much effort. Tim adds: Perhaps that dir(object) |
| rarely returns anything but [] now is a consequence of this. I'm very |
| used to doing, e.g., dir([]) or dir("") in an interactive shell to jog my |
| memory; also one of the reasons test_generators failed. |
| |
| Another area: going all the way with classes and instances means that |
| type(x) == types.InstanceType won't work any more to detect instances. |
| Should there be a mode where this still works? Maybe this should be |
| the default mode, with a warning, and an explicit way to get the new |
| way to work? (Instead of a __future__ statement, I'm thinking of a |
| module global __metaclass__ which would provide the default metaclass |
| for baseless class statements.) |
| |
| |
| Project: testing |
| **************** |
| |
| Tasks: |
| |
| Identify new functionality that needs testing. Conceive unit tests |
| for all new functionality. Conceive stress tests for critical |
| features. Run the tests. Fix bugs. Repeat until satisfied. |
| |
| Note: this may interact with the branch integration task. |
| |
| |
| Project: integration with main branch *** This is done - tim *** |
| ************************************* |
| |
| Tasks: |
| |
| Merge changes in the HEAD branch into the descr-branch. Then merge |
| the descr-branch back into the HEAD branch. |
| |
| The longer we wait, the more effort this will be -- the descr-branch |
| forked off quite a long time ago, and there are changes everywhere in |
| the HEAD branch (e.g. the dict object has been radically rewritten). |
| |
| On the other hand, if we do this too early, we'll have to do it again |
| later. |
| |
| Note from Tim: We should never again wait until literally 100s of files |
| are out of synch. I don't care how often I need to do this, provided only |
| that it's a tractable task each time. Once per week sounds like a good |
| idea. As is, even the trunk change to rangeobject.c created more than its |
| proper share of merge headaches, because it confused all the other reasons |
| include file merges were getting conflicts (the more changes there are, the |
| worse diff does; indeed, I came up with the ndiff algorithm in the 80s |
| precisely because the source-control diff program Cray used at the time |
| produced minimal but *senseless* diffs, thus creating artificial conflicts; |
| paying unbounded attention to context does a much better job of putting |
| changes where they make semantic sense too; but we're stuck with Unix diff |
| here, and it isn't robust in this sense; if we don't keep its job simple, |
| it will make my job hell). |
| |
| Done: |
| To undo or rename before final merge: Modules/spam.c has worked its |
| way into the branch Unix and Windows builds (pythoncore.dsp and |
| PC/config.c); also imported by test_descr.py. How about renaming to |
| xxsubtype.c (whatever) now? *** this is done - tim *** |
| |
| |
| Project: performance tuning |
| *************************** |
| |
| Tasks: |
| |
| Pick or create a general performance benchmark for Python. Benchmark |
| the new system vs. the old system. Profile the new system. Improve |
| hotspots. Repeat until satisfied. |
| |
| Note: this may interact with the branch integration task. |
| |
| |
| Project: documentation |
| ********************** |
| |
| Tasks: |
| |
| Update PEP 252 (descriptors). Describe more of the prototype |
| implementation |
| |
| Update PEP 253 (subtyping). Complicated architectural wrangling with |
| metaclasses. There is an interaction between implementation and |
| description. |
| |
| Write PEP 254 (unification of classes). This should discuss what |
| changes for ordinary classes, and how we can make it more b/w |
| compatible. |
| |
| Other documentation. There needs to be user documentation, |
| eventually. |
| |
| |
| Project: community interaction |
| ****************************** |
| |
| Tasks: |
| |
| Once the PEPs are written, solicit community feedback, and formulate |
| responses to the feedback. Give the community enough time to think |
| over this complicated proposal. Provide the community with a |
| prototype implementation to test. Try to do this *before* casting |
| everything in stone! |