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188 lines
6.4 KiB
188 lines
6.4 KiB
5 months ago
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"""This file exports ONNX ops for opset 16.
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Note [ONNX Operators that are added/updated in opset 16]
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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https://github.com/onnx/onnx/blob/main/docs/Changelog.md#version-16-of-the-default-onnx-operator-set
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New operators:
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GridSample https://github.com/onnx/onnx/pull/3557
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Updated operators:
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Identity
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If
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LeakyRelu
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Loop
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PRelu
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RoiAlign
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Scan
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ScatterElements
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ScatterND
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Where
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GreaterOrEqual
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LessOrEqual
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"""
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# EDITING THIS FILE? READ THIS FIRST!
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# see Note [Edit Symbolic Files] in README.md
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import functools
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import torch
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from torch.nn.functional import (
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GRID_SAMPLE_INTERPOLATION_MODES,
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GRID_SAMPLE_PADDING_MODES,
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)
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from torch.onnx import _type_utils, errors, symbolic_helper, utils
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from torch.onnx._internal import _beartype, jit_utils, registration
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_onnx_symbolic = functools.partial(registration.onnx_symbolic, opset=16)
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# note (mkozuki): Why `grid_sampler` instead of `grid_sample`?
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# Because `torch.nn.functional.grid_sample` calls `torch.grid_sampler`.
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@_onnx_symbolic("aten::grid_sampler")
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@symbolic_helper.parse_args("v", "v", "i", "i", "b")
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@_beartype.beartype
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def grid_sampler(
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g: jit_utils.GraphContext,
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input,
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grid,
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mode_enum,
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padding_mode_enum,
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align_corners,
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):
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# Check the input and grid tensor rank beforehand.
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if symbolic_helper._get_tensor_rank(input) == 5:
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return symbolic_helper._onnx_unsupported("GridSample with 5D volumetric input")
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mode_s = {v: k for k, v in GRID_SAMPLE_INTERPOLATION_MODES.items()}[mode_enum] # type: ignore[call-arg]
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padding_mode_s = {v: k for k, v in GRID_SAMPLE_PADDING_MODES.items()}[padding_mode_enum] # type: ignore[call-arg]
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return g.op(
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"GridSample",
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input,
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grid,
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align_corners_i=int(align_corners),
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mode_s=mode_s,
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padding_mode_s=padding_mode_s,
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)
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@_onnx_symbolic("aten::scatter_add")
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@symbolic_helper.parse_args("v", "i", "v", "v")
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@_beartype.beartype
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def scatter_add(g: jit_utils.GraphContext, self, dim, index, src):
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if symbolic_helper.is_caffe2_aten_fallback():
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return g.at("scatter", self, dim, index, src, overload_name="src")
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src_type = _type_utils.JitScalarType.from_value(
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src, _type_utils.JitScalarType.UNDEFINED
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)
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src_sizes = symbolic_helper._get_tensor_sizes(src)
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index_sizes = symbolic_helper._get_tensor_sizes(index)
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if len(src_sizes) != len(index_sizes):
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return symbolic_helper._unimplemented(
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"scatter_add",
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f"`index` ({index_sizes}) should have the same dimensionality as `src` ({src_sizes})",
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)
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# PyTorch only allows index shape <= src shape, so we can only consider
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# taking index as subset size to src, like PyTorch does. When sizes for src
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# and index are not matched or there are dynamic axes, we take index shape to
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# slice src to accommodate.
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if src_sizes != index_sizes or None in index_sizes:
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adjusted_shape = g.op("Shape", index)
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starts = g.op("Constant", value_t=torch.tensor([0] * len(index_sizes)))
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src = g.op("Slice", src, starts, adjusted_shape)
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src = symbolic_helper._maybe_get_scalar(src)
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if symbolic_helper._is_value(src):
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return g.op("ScatterElements", self, index, src, axis_i=dim, reduction_s="add")
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else:
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# Check if scalar "src" has same type as self (PyTorch allows different
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# type for scalar src (but not when src is tensor)). If not, insert Cast node.
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if _type_utils.JitScalarType.from_value(self) != src_type:
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src = g.op(
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"Cast",
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src,
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to_i=_type_utils.JitScalarType.from_value(self).onnx_type(),
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)
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return g.op(
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"ScatterElements",
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self,
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index,
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src,
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axis_i=dim,
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reduction_s="add",
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)
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@_onnx_symbolic("aten::scatter_reduce")
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@symbolic_helper.parse_args("v", "i", "v", "v", "s", "b")
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@_beartype.beartype
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def scatter_reduce(
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g: jit_utils.GraphContext,
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self: torch._C.Value,
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dim: int,
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index: torch._C.Value,
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src: torch._C.Value,
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reduce: str,
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include_self: bool,
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):
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if reduce == "mean":
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raise errors.OnnxExporterError(
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"ONNX does not support mean reduction for scatter_reduce"
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)
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if not include_self:
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raise errors.OnnxExporterError(
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"ONNX does not support include_self=False for scatter_reduce"
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)
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reduce_mode = { # convert torch string name to onnx string name
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"mean": "none", # 'mean' doesn't support in ONNX 1.14 definition
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"sum": "add",
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"prod": "mul",
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"amin": "min",
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"amax": "max",
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}
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onnx_reduce = reduce_mode[reduce]
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self_rank = g.op("Size", g.op("Shape", self))
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# if self_rank == 0: # assert (index_rank == 0 and rank_src == 0)
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self_rank_is_zero = g.op(
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"Equal", self_rank, g.op("Constant", value_t=torch.tensor(0, dtype=torch.int64))
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)
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if_op, (if_context, else_context), _ = jit_utils.add_op_with_blocks(
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g, "If", self_rank_is_zero, n_blocks=2, outputs=3
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)
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neg_1 = if_context.op("Constant", value_t=torch.tensor([-1], dtype=torch.int64))
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self_reshape = if_context.op("Reshape", self, neg_1)
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utils._add_output_to_block(if_context.block, self_reshape)
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index_reshape = if_context.op("Reshape", index, neg_1)
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utils._add_output_to_block(if_context.block, index_reshape)
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src_reshape = if_context.op("Reshape", src, neg_1)
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utils._add_output_to_block(if_context.block, src_reshape)
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self_identity = else_context.op("Identity", self)
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utils._add_output_to_block(else_context.block, self_identity)
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index_identitye = else_context.op("Identity", index)
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utils._add_output_to_block(else_context.block, index_identitye)
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src_identity = else_context.op("Identity", src)
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utils._add_output_to_block(else_context.block, src_identity)
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result = g.op("ScatterElements", *if_op, axis_i=dim, reduction_s=onnx_reduce)
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# if self_rank == 0:
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if_op, (if_context, else_context), _ = jit_utils.add_op_with_blocks(
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g, "If", self_rank_is_zero, n_blocks=2, outputs=1
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)
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result_squeezed = if_context.op("Squeeze", result)
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utils._add_output_to_block(if_context.block, result_squeezed)
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result_identity = else_context.op("Identity", result)
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utils._add_output_to_block(else_context.block, result_identity)
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result_final = if_op.node().output()
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return result_final
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