BuiltinVariable.call_hasattr() overrides the base class - but actually behaves differently. The base is `obj.call_hasattr(tx, attr)` but BuiltinVariable's version is `<unused>.call_hasattr(tx, obj, attr)`.
The BuiltinVariable version is used as a pattern from `call_self_handler()` for `BuiltinVariable(hasattr)`. I think the other version is just used for internal `hasattr(obj, name)` so I renamed that one to `call_obj_hasattr`.
Pull Request resolved: https://github.com/pytorch/pytorch/pull/145551
Approved by: https://github.com/anijain2305
This patch applies a local and practical workaround for custom dict
construction when multiple inheritance is involved.
Handling multiple inheritance in general could be a lot more involved,
so I created #142414 to track that.
Fixes#141118.
Pull Request resolved: https://github.com/pytorch/pytorch/pull/142416
Approved by: https://github.com/jansel
This was introduced in https://github.com/pytorch/torchdynamo/commit/d0c10341
as limited support for pre-existing cells, since we know `__class__` wouldn't be modified
in most cases. It's no longer needed now that we have much more support for these cells.
Example:
```python
class Foo():
def __init__(self):
super().__init__()
print(Foo.__init__.__code__.co_freevars) # ('__class__',)
print(Foo.__init__.__closure__) # (<cell at 0x1011fb310: type object at 0x10fe185b0>,)
```
This patch also exposed and fixes a bug in
`NNModuleVariable.var_getattr`, where Dynamo wasn't propagating source
correctly.
Pull Request resolved: https://github.com/pytorch/pytorch/pull/140034
Approved by: https://github.com/williamwen42, https://github.com/anijain2305, https://github.com/jansel
This patch addresses the renaming part of #133027, specifically, it
renames the following and adds documentation for relevant classes.
1. `VariableTracker.mutable_local` to `mutation_type`
2. `MatableLocal `to `ValueMutationNew`
3. `MutableSideEffects `to `ValueMutationExisting`
4. `MutableLocalSource` to `SourceType`
5. `MutableLocalSource.Local` to `New`
Note that (2), (3) and (5) are mainly to bring consistency between them
and `AttributeMutationNew`, `AttributeMutationExisting`.
Pull Request resolved: https://github.com/pytorch/pytorch/pull/139339
Approved by: https://github.com/jansel, https://github.com/mlazos, https://github.com/anijain2305
## `VariableTracker::build()` hides the Builders
### The problem
In the current code, creating a `VariableTracker` involves choosing one of two `Builder` classes and either calling a method, or calling a constructor that creates an object that you immediately call, [like this](083c9149b7/torch/_dynamo/variables/functions.py (L761-L768)).
Variations on this code are repeated in many places.
More, the `Builder` classes have a lot of dependencies, so they have to be loaded late in the whole import process to avoid circular imports, so they end up being repeatedly imported at local scope.
### The solution
In this commit, the import from `builder` and the logic of choosing and calling the Builder class are hidden in a single static factory method, `VariableTracker.build()`, easier to reason about and to import.
This commit net lowers the total lines of code by over 150 lines by removing repetitive logic and unnecessary local imports.
**CHANGES:** Originally the name of the static method was `VariableTracker.create()` but a static method on a derived class, `LazyVariableTracker.create()` now exists with a different signature that's irreconcilable, so the new static method was renamed to `VariableTracker.build()`.
Pull Request resolved: https://github.com/pytorch/pytorch/pull/135714
Approved by: https://github.com/jansel
We use nn_module_stack in unflatten to recognize when module calls begin and end. However the current format is not sufficient to detect module call boundaries when we have successive calls to the same module, because the successive instructions (end of one call, begin of next call) have the same nn_module_stack. This causes us to effectively "unroll" successive calls to a single call. This can cause problems when preserving module call signatures because the outputs of the successive calls might be concatenated in the single call.
Previously we introduced the concept of a "call index" to generate multiple graphs when unflattening, one per call. This PR pushes this concept into nn_module_stack itself. In particular, the keys of nn_module_stack now go from `key` to `key@call_index`. (In a previous attempt, https://github.com/pytorch/pytorch/pull/137457, instead values in nn_module_stack go from (fqn, type) to (fqn, type, call_index), which is BC-breaking.)
Note that we still do not have the ability to preserve module call signatures for multiple calls to the same module. But now instead of randomly crashing we give a proper error. OTOH when not preserving module call signatures we simply generate multiple calls, each with its own graph, possibly deduplicated, matching what we would do for non-successive calls.
Test Plan: Like D64014936
Differential Revision: D64136277
Pull Request resolved: https://github.com/pytorch/pytorch/pull/137646
Approved by: https://github.com/angelayi
All the changes brought by the original PR have been addressed in alternative ways in the stack. Why the original PR has to be reverted requires more effort because there is some bad interaction with export.
Pull Request resolved: https://github.com/pytorch/pytorch/pull/131058
Approved by: https://github.com/williamwen42
