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200 lines
7.4 KiB
200 lines
7.4 KiB
5 months ago
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from typing import List, Optional
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from torchgen.api import dispatcher
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from torchgen.api.types import (
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BaseCppType,
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BaseCType,
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Binding,
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boolT,
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ConstRefCType,
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CType,
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longT,
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NamedCType,
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tensorT,
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)
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from torchgen.model import (
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Argument,
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BaseTy,
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BaseType,
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FunctionSchema,
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NativeFunction,
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NativeFunctionsViewGroup,
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)
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# This file describes the translation of JIT schema to API's used
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# when creating view lambdas that are used by the functionalization pass.
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# There are two types of lambdas: forward lambdas and reverse lambdas.
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# These API's mostly follow the dispatcher API, with a few quirks:
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# - The lambda capture has to convert reference types to value types
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# - While the forward lambda just directly calls into the at::_ops API
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# (following the dispatcher convention), the logic here for the reverse lambda
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# is responsible for generating both the call-site, and the declarations
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# (which are implemented manually in the at::functionalization::impl namespace).
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# The lambdas generated for each view op in the functionalization pass are of the form
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# [capture_arguments](outer_arguments) -> returns_type {
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# return name(inner_arguments);
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# }
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# Define some specific lambda input arguments.
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base_binding = Binding(
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name="base",
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nctype=NamedCType(name="base", type=ConstRefCType(BaseCType(tensorT))),
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argument=Argument(
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name="base", type=BaseType(BaseTy.Tensor), default=None, annotation=None
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),
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default=None,
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)
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mutated_view_binding = Binding(
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name="mutated_view",
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nctype=NamedCType(name="mutated_view", type=ConstRefCType(BaseCType(tensorT))),
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argument=Argument(
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name="base", type=BaseType(BaseTy.Tensor), default=None, annotation=None
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),
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default=None,
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)
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mutated_view_idx_binding = Binding(
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name="mutated_view_idx",
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nctype=NamedCType(name="mutated_view_idx", type=BaseCType(longT)),
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argument=Argument(
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name="base", type=BaseType(BaseTy.Tensor), default=None, annotation=None
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),
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default=None,
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)
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reapply_views_binding = Binding(
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name="reapply_views",
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nctype=NamedCType(name="reapply_views", type=BaseCType(boolT)),
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argument=Argument(
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name="reapply_views", type=BaseType(BaseTy.bool), default=None, annotation=None
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),
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default=None,
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)
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InverseReturnModeT = BaseCppType("at::functionalization", "InverseReturnMode")
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inverse_return_mode_binding = Binding(
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name="inverse_return_mode",
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nctype=NamedCType(name="inverse_return_mode", type=BaseCType(InverseReturnModeT)),
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argument=Argument(
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name="inverse_return_mode",
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# NB: not actually a bool but it doesn't matter because this isn't used
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type=BaseType(BaseTy.bool),
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default=None,
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annotation=None,
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),
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default=None,
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)
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# The lambda capture itself doesn't have a name.
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# The name returned here corresponds to the name of the inner function called by the lambda.
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def name(
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g: NativeFunctionsViewGroup,
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*,
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is_reverse: bool,
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include_namespace: bool,
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reapply_views: Optional[bool] = None,
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) -> str:
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if reapply_views is None:
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# reapply_views is only important for the fwd lambda,
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# since we always plumb the runtime "reapply_views" argument into the reverse function.
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assert is_reverse
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if is_reverse:
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return reverse_name(g.view, include_namespace)
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# in the forward case, we just directly call into the at::_ops API (so we always need the namespace)
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assert include_namespace
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assert g.view_copy is not None
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api_name = (
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g.view.func.name.unambiguous_name()
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if reapply_views
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else g.view_copy.func.name.unambiguous_name()
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)
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return f"at::_ops::{api_name}::call"
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def reverse_name(f: NativeFunction, include_namespace: bool) -> str:
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# for the reverse: we plumb the "reapply_views" flag into that function and support
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# both copy and non-copy variants. (We could avoid doing that, but that would require
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# writing out twice as many view inverse functions).
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api_name = f.func.name.unambiguous_name()
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# in the reverse case, we codegen both the call-sites (which need the full namespace) and the declarations (which don't)
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if include_namespace:
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return f"at::functionalization::FunctionalInverses::{api_name}_inverse"
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else:
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return f"{api_name}_inverse"
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def capture_arguments(func: FunctionSchema, *, is_reverse: bool) -> List[Binding]:
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# capture arguments include all arguments except `self`.
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# Importantly, they don't include any C++ reference types (or else we'll get a dangling reference in the capture),
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# So any reference types (IntArrayRef) need to be converted to value types (vector<int64_t>)
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args = func.arguments.flat_all
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assert args[0].type == BaseType(BaseTy.Tensor)
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non_self_args = args[1:]
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non_self_value_bindings = [
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dispatcher.argument(a, remove_non_owning_ref_types=True) for a in non_self_args
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]
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all_bindings = [
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inverse_return_mode_binding if is_reverse else reapply_views_binding
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]
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all_bindings.extend(non_self_value_bindings)
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return all_bindings
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def returns_type(func: FunctionSchema) -> CType:
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# Assertion: all view ops return tensor-like outputs
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assert len(func.returns) >= 1
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for ret in func.returns:
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assert ret.type.is_tensor_like()
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# However, the return type of the lambda is always an individual tensor.
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# For multi-tensor outputs, each tensor needs to be tracked individually.
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return BaseCType(tensorT)
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def outer_arguments(*, is_reverse: bool) -> List[Binding]:
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if is_reverse:
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return [base_binding, mutated_view_binding, mutated_view_idx_binding]
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else:
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return [base_binding, mutated_view_idx_binding]
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def inner_call_index(func: FunctionSchema) -> Optional[Binding]:
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# For view ops that return multiple tensors (like `split`), we generate a separate lambda for each output.
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# When we replay a view op that returns multiple tensors, we need to index into the output appropriately
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if len(func.returns) > 1 or (
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len(func.returns) == 1 and func.returns[0].type.is_list_like()
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):
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return mutated_view_idx_binding
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return None
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def inner_arguments(func: FunctionSchema, is_reverse: bool) -> List[Binding]:
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args = func.arguments.flat_all
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assert args[0].type == BaseType(BaseTy.Tensor)
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non_self_args = args[1:]
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# The forward lambda calls the at::_ops API, while the reverse lambda calls the view inverse API.
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# Both of these follow the dispatcher API.
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non_self_bindings = [dispatcher.argument(a) for a in non_self_args]
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if not is_reverse:
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# the forward lambda swaps out the original tensor argument with the lambd arg "base"
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return [base_binding] + non_self_bindings
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else:
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# the reverse lambda does the same, but with an additional "mutated_view" arg
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# additionally, we have a calling convention: for view ops that return multiple tensor outputs
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# their corresponding view_inverse function takes in an additional index argument.
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index_binding = inner_call_index(func)
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if index_binding is not None:
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return [
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base_binding,
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mutated_view_binding,
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inverse_return_mode_binding,
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index_binding,
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] + non_self_bindings
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else:
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return [
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base_binding,
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mutated_view_binding,
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inverse_return_mode_binding,
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] + non_self_bindings
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