Summary:
While testing exportability for PT2 Inference models, we found various cases of invalid op inputs during tracing, for example errors like: `a and b must have same reduction dim`, `expected scalar type Long but found Int`, etc. Looking more closely, these happened to due the same few meta kernels & eager kernels producing mismatched outputs upstream (e.g. different output tensor dtype, int output).
Adding checks to catch mismatched outputs in real tensor prop upstream, so errors are raised at the mismatched op, instead of the downstream ops taking them as inputs. Relies a lot on utils from [CrossRefFakeMode](929797dedb/torch/_subclasses/fake_utils.py (L78))
Follow ups: could add more checks, and maybe have a flag to only enable these for cases like draft mode, so perf doesn't suffer?
Test Plan: test_export, test_fake_tensor
Differential Revision: D64210055
Pull Request resolved: https://github.com/pytorch/pytorch/pull/137747
Approved by: https://github.com/zou3519
## The problem.
[A commit from three weeks ago](82d00acfee) appears to have broken five tests but was not caught by CI.
[A later commit](https://github.com/pytorch/pytorch/commit/e05ea2b1797) which added a decomposition of `transpose_copy` added another broken test, also seemingly not detected, making six total (listed below).
They came to my attention when I updated some pending decomposition pull requests which passed CI, and started getting failures like [this](https://hud.pytorch.org/pr/134319) for a test unrelated to any of these pull requests, `TestCommonCPU.test_out__refs_transpose_copy_cpu_float32`
Running `python test/test_ops.py -k _copy` on `viable/strict` found failures for six `_refs` ops: `copysign`, `expand_copy`, `index_copy`, `t_copy`, `transpose_copy`, `view_copy`
## The solution
The original commit did actually cause breakage by slightly changing user-visible behavior (in a special case involving scalar tensors being copied between different devices).
This pull request fixes that breakage in a reasonable way, but I don't understand why this error didn't appear in CI until I made later changes in the same area.
## To reproduce
To reproduce the six cases in your own client:
```
PYTORCH_OPINFO_SAMPLE_INPUT_INDEX=5 python test/test_ops.py TestCommonCPU.test_out__refs_view_copy_cpu_float32
PYTORCH_OPINFO_SAMPLE_INPUT_INDEX=2 python test/test_ops.py TestCommonCPU.test_out__refs_t_copy_cpu_float32
PYTORCH_OPINFO_SAMPLE_INPUT_INDEX=0 python test/test_ops.py TestCommonCPU.test_out__refs_index_copy_cpu_float32
PYTORCH_OPINFO_SAMPLE_INPUT_INDEX=7 python test/test_ops.py TestCommonCPU.test_out__refs_expand_copy_cpu_float32
PYTORCH_OPINFO_SAMPLE_INPUT_INDEX=0 python test/test_ops.py TestCommonCPU.test_out__refs_copysign_cpu_float32
PYTORCH_OPINFO_SAMPLE_INPUT_INDEX=4 python test/test_ops.py TestCommonCPU.test_out__refs_transpose_copy_cpu_float32
```
@amjames
Pull Request resolved: https://github.com/pytorch/pytorch/pull/136653
Approved by: https://github.com/zou3519
Summary:
there're some issues for dim order creation. T194410923 has detail illustration.
One of the reason is sometimes `is_contiguous` function may generate ambiguous memory format result (some tensors might be both channels_last and contiguous at the same time), and dim order generation rely on memory format result underneath for shortcut.
To mitigate the issue, we make dim order utilizing the short cut if and only if the tensor is only belongs to single memory format. Otherwise, we will still recalculate it.
Test Plan: CI
Differential Revision: D60056793
Pull Request resolved: https://github.com/pytorch/pytorch/pull/131366
Approved by: https://github.com/ezyang
Adds support for SymInts in the FakeTensor cache.
A couple notes:
1. When a SymInt is present in the input key for a FakeTensor operation we cache on the ShapeEnv instead of using the FakeTensorMode cache. This is necessary so we don't have to remember and check the guards. It reduces the cache hits but there's diminishing return on how much work we can do before the cache becomes more of a burden than a gain.
2. We need to be careful that when we cache an output SymInt that is a direct copy from the input that when we have a cache-hit we copy the SymNode from the input to the output. This is important because the fx-graph building code actually uses SymNode ids in the process of building the graph so constructing a same-content-but-different-id SymNode will fail.
3. In the cache key we store SymInts as a _PySymInputStub. These represent SymInt (and friends) but support `__hash__` and `__eq__` (which SymInt do not).
4. In the cache entry we store SymInts as a _SymIntOutputStub.
Perf example:
```
python benchmarks/dynamo/timm_models.py --ci --accuracy --timing
--explain --inductor --dynamic-shapes --dynamic-batch-only --device cuda
--training --amp --total-partitions 2 --partition-id 0 --output
/tmp/training_timm_models.csv --filter crossvit_9_240
```
fake tensor cache before:
```
INFO: FakeTensor cache stats:
INFO: cache_hits: 68137
INFO: cache_misses: 837
INFO: cache_bypasses:
INFO: symbolic shape: 48224
INFO: CompositeImplicitAutograd: 917
INFO: non-fake tensor: 70
INFO: non-FakeTensor output: 62
INFO: non-builtin: 8
INFO: dynamic output shape: 1
```
and after:
```
INFO: FakeTensor cache stats:
INFO: cache_hits: 88187
INFO: cache_misses: 14233
INFO: cache_bypasses:
INFO: CompositeImplicitAutograd: 1037
INFO: non-FakeTensor output: 602
INFO: non-fake tensor: 70
INFO: unsafe view: 36
INFO: non-builtin: 8
INFO: dynamic output shape: 1
```
Pull Request resolved: https://github.com/pytorch/pytorch/pull/127596
Approved by: https://github.com/eellison
ghstack dependencies: #131014, #129780
Use `typing_extensions.deprecated` for deprecation annotation if possible. Otherwise, add `category=FutureWarning` to `warnings.warn("message")` if the category is missing.
Note that only warnings that their messages contain `[Dd]eprecat(ed|ion)` are updated in this PR.
Resolves#126888
- #126888
This PR is split from PR #126898.
- #126898
------
Pull Request resolved: https://github.com/pytorch/pytorch/pull/127689
Approved by: https://github.com/Skylion007
Use `typing_extensions.deprecated` for deprecation annotation if possible. Otherwise, add `category=FutureWarning` to `warnings.warn("message")` if the category is missing.
Note that only warnings that their messages contain `[Dd]eprecat(ed|ion)` are updated in this PR.
UPDATE: Use `FutureWarning` instead of `DeprecationWarning`.
Resolves#126888
- #126888
Pull Request resolved: https://github.com/pytorch/pytorch/pull/126898
Approved by: https://github.com/albanD
The `usort` config in `pyproject.toml` has no effect due to a typo. Fixing the typo make `usort` do more and generate the changes in the PR. Except `pyproject.toml`, all changes are generated by `lintrunner -a --take UFMT --all-files`.
Pull Request resolved: https://github.com/pytorch/pytorch/pull/127122
Approved by: https://github.com/kit1980
Update ruff to 0.4.1 .
This version fixes a lot false negatives/false positives, is 20-40% faster, and has various other bug fixes.
Below is a before and after table showing the execution time of ruff lint and ruff format in milliseconds courtesy of https://astral.sh/blog/ruff-v0.4.0
| Repository | Linter (v0.3) | Linter (v0.4) | Formatter (v0.3) | Formatter (v0.4) |
|----------------------------------------------------|---------------|---------------|------------------|------------------|
| [pytorch/pytorch](https://github.com/pytorch/pytorch) | 328.7 | 251.8 | 351.1 | 274.9 |
Pull Request resolved: https://github.com/pytorch/pytorch/pull/124549
Approved by: https://github.com/ezyang
Given the following code/dynamo graph:
```
class GraphModule(torch.nn.Module):
def forward(self, L_x_ : torch.Tensor):
l_x_ = L_x_
_print = torch.ops.aten._print('moo')
res = l_x_ + l_x_; l_x_ = None
_print_1 = torch.ops.aten._print('moo')
return (res,)
```
AOTAutograd will trace the following program, threading tokens from the inputs, through the effectful operator calls (torch.ops.aten._print), and as an output:
```
class <lambda>(torch.nn.Module):
def forward(self, arg0_1: "f32[0]", arg1_1: "f32[2, 3]"):
with_effects = torch._higher_order_ops.effects.with_effects(arg0_1, torch.ops.aten._print.default, 'moo'); arg0_1 = None
getitem: "f32[0]" = with_effects[0]; with_effects = None
add: "f32[2, 3]" = torch.ops.aten.add.Tensor(arg1_1, arg1_1); arg1_1 = None
with_effects_1 = torch._higher_order_ops.effects.with_effects(getitem, torch.ops.aten._print.default, 'moo'); getitem = None
getitem_2: "f32[0]" = with_effects_1[0]; with_effects_1 = None
return (getitem_2, add)
```
However when we get to inductor, since we want the inductor generated code to not have any token inputs/outputs for better readability, we want to modify the aten graph by removing the tokens from inputs, and creating them through `torch.ops.aten._make_dep_token`, and sinking them through the `torch.ops.aten._sink_tokens` operators.
This has to be done *after* the partitioner, otherwise the partitioner will add the make_token/sink_token operators to the backwards graph.
```
class <lambda>(torch.nn.Module):
def forward(self, arg1_1: "f32[2, 3]"):
_make_dep_token_default: "f32[0]" = torch.ops.aten._make_dep_token.default()
with_effects = torch._higher_order_ops.effects.with_effects(_make_dep_token_default, torch.ops.aten._print.default, 'moo'); _make_dep_token_default = None
getitem: "f32[0]" = with_effects[0]; with_effects = None
add: "f32[2, 3]" = torch.ops.aten.add.Tensor(arg1_1, arg1_1); arg1_1 = None
with_effects_1 = torch._higher_order_ops.effects.with_effects(getitem, torch.ops.aten._print.default, 'moo'); getitem = None
getitem_2: "f32[0]" = with_effects_1[0]; with_effects_1 = None
_sink_tokens_default = torch.ops.aten._sink_tokens.default((getitem_2,)); getitem_2 = None
return (add,)
```
When doing inductor lowering, we convert `with_effects` calls to an `EffectfulKernel`, which just a `FallbackKernel` but with a pointer to previous effectful operator's call. During scheduling, we will create a `StarDep` between the EffectfulKernel and its previous EffectfulKernel so that they don't get reordered. The inductor generated python code looks like:
```
def call(args):
arg1_1, = args
args.clear()
assert_size_stride(arg1_1, (2, 3), (3, 1))
# Source Nodes: [_print], Original ATen: []
buf2 = aten._print.default('moo')
# Source Nodes: [_print_1], Original ATen: []
buf3 = aten._print.default('moo')
buf4 = empty_strided_cpu((2, 3), (3, 1), torch.float32)
cpp_fused_add_0(arg1_1, buf4)
del arg1_1
return (buf4, )
```
Pull Request resolved: https://github.com/pytorch/pytorch/pull/122347
Approved by: https://github.com/bdhirsh
Fixes internal test
```
buck2 test '@fbcode//mode/opt' fbcode//accelerators/workloads/models/slimdsnn:slimdsnn_test -- --exact 'accelerators/workloads/models/slimdsnn:slimdsnn_test - test_generate (accelerators.workloads.models.slimdsnn.test_slimdsnn.SlimDSNN)'
```
And I added an OSS test that approximates the internal situation.
Signed-off-by: Edward Z. Yang <ezyang@meta.com>
Differential Revision: [D53544208](https://our.internmc.facebook.com/intern/diff/D53544208)
Pull Request resolved: https://github.com/pytorch/pytorch/pull/119383
Approved by: https://github.com/atalman, https://github.com/albanD
