mirror of https://github.com/llvm/torch-mlir
206 lines
7.0 KiB
Python
206 lines
7.0 KiB
Python
# Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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# See https://llvm.org/LICENSE.txt for license information.
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# SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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# Also available under a BSD-style license. See LICENSE.
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# RUN: %PYTHON %s | FileCheck %s
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from typing import List
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import torch
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import torch.nn as nn
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from torch.export import Dim
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from torch._dynamo.backends.common import aot_autograd
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from torch._functorch.aot_autograd import (
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make_boxed_compiler,
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get_aot_graph_name,
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set_model_name,
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)
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from torch_mlir import fx
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from torch_mlir.compiler_utils import run_pipeline_with_repro_report
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def run(f):
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print(f"{f.__name__}")
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print("-" * len(f.__name__))
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f()
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print()
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@run
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# CHECK-LABEL: test_import_frozen_exported_program
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# CHECK: func.func @main(%[[ARG0:[a-zA-Z0-9]+]]: !torch.vtensor<[3,4],f32>) -> !torch.vtensor<[3,4],f32>
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# CHECK-DAG: %[[a:.+]] = torch.vtensor.literal(dense_resource<torch_tensor_1_4_torch.float32> : tensor<1x4xf32>) : !torch.vtensor<[1,4],f32>
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# CHECK-DAG: %[[b:.+]] = torch.vtensor.literal(dense_resource<torch_tensor_3_1_torch.float32> : tensor<3x1xf32>) : !torch.vtensor<[3,1],f32>
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# CHECK-DAG: %[[p:.+]] = torch.vtensor.literal(dense<{{.*>+}} : tensor<1x1xf32>) : !torch.vtensor<[1,1],f32>
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# CHECK-DAG: %[[tanh:.+]] = torch.aten.tanh %[[ARG0]]
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# CHECK-DAG: %[[mul_a:.+]] = torch.aten.mul.Tensor %[[tanh]], %[[a]]
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# CHECK-DAG: %[[mul_b:.+]] = torch.aten.mul.Tensor %[[mul_a]], %[[b]]
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# CHECK-DAG: %[[mul_p:.+]] = torch.aten.mul.Tensor %[[mul_b]], %[[p]]
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# CHECK: return %[[mul_p]]
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#
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# Validate dialect resources exist.
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# CHECK: dialect_resources:
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# CHECK-DAG: torch_tensor_1_4_torch.float32
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# CHECK-DAG: torch_tensor_3_1_torch.float32
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def test_import_frozen_exported_program():
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# Tests the basic structural premises of import_frozen_exported_program,
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# namely that free tensors (buffers) and parameters are treated as
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# literals and frozen.
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@torch._dynamo.assume_constant_result
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def get_a():
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return torch.randn(1, 4)
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class Basic(nn.Module):
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def __init__(self):
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super().__init__()
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self.b = torch.randn(3, 1)
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self.p = nn.Parameter(torch.randn(1, 1))
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def forward(self, x):
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return torch.tanh(x) * get_a() * self.b * self.p
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m = fx.export_and_import(Basic(), torch.randn(3, 4))
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print(m)
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@run
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# CHECK-LABEL: test_import_frozen_exported_program_with_func_name
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# CHECK: func.func @test_net(%[[ARG0:[a-zA-Z0-9]+]]: !torch.vtensor<[3,4],f32>) -> !torch.vtensor<[3,4],f32>
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def test_import_frozen_exported_program_with_func_name():
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@torch._dynamo.assume_constant_result
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def get_a():
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return torch.randn(1, 4)
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class Basic(nn.Module):
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def __init__(self):
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super().__init__()
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self.b = torch.randn(3, 1)
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self.p = nn.Parameter(torch.randn(1, 1))
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def forward(self, x):
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return torch.tanh(x) * get_a() * self.b * self.p
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m = fx.export_and_import(Basic(), torch.randn(3, 4), func_name="test_net")
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print(m)
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@run
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# CHECK-LABEL: test_import_frozen_exported_program_with_dynamic_shapes
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# CHECK: func.func @test_net(%[[ARG0:[a-zA-Z0-9]+]]: !torch.vtensor<[?,4],f32>) -> !torch.vtensor<[?,4],f32>
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# CHECK: %[[S0:.*]] = torch.symbolic_int "s0" {min_val = {{[0-9]+}}, max_val = {{[0-9]+}}} : !torch.int
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# CHECK: torch.bind_symbolic_shape %[[ARG0]], [%[[S0]]], affine_map<()[s0] -> (s0, 4)> : !torch.vtensor<[?,4],f32>
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# CHECK: %[[TANH:.*]] = torch.aten.tanh %[[ARG0]] : !torch.vtensor<[?,4],f32> -> !torch.vtensor<[?,4],f32>
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# CHECK: torch.bind_symbolic_shape %[[TANH]], [%[[S0]]], affine_map<()[s0] -> (s0, 4)> : !torch.vtensor<[?,4],f32>
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# CHECK: return %[[TANH]] : !torch.vtensor<[?,4],f32>
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def test_import_frozen_exported_program_with_dynamic_shapes():
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class Basic(nn.Module):
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def __init__(self):
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super().__init__()
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def forward(self, x):
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return torch.tanh(x)
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batch = Dim("batch")
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dynamic_shapes = {"x": {0: batch}}
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m = fx.export_and_import(
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Basic(),
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torch.randn(3, 4),
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dynamic_shapes=dynamic_shapes,
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func_name="test_net",
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import_symbolic_shape_expressions=True,
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)
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print(m)
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@run
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# CHECK-LABEL: test_broadcast_with_dynamic_shapes
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# CHECK: func.func @test_net(%[[ARG0:[a-zA-Z0-9]+]]: !torch.vtensor<[1,2],f32>, %[[ARG1:[a-zA-Z0-9]+]]: !torch.vtensor<[?],f32>) -> !torch.vtensor<[?,2],f32>
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# CHECK: %[[S0:.*]] = torch.symbolic_int "s0" {min_val = {{[0-9]+}}, max_val = {{[0-9]+}}} : !torch.int
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# CHECK: torch.bind_symbolic_shape %[[ARG1]], [%[[S0]]], affine_map<()[s0] -> (s0)> : !torch.vtensor<[?],f32>
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# CHECK: torch.aten.size.int
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# CHECK: torch.prim.ListConstruct
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# CHECK: %[[EXPAND:.*]] = torch.aten.expand
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# CHECK: torch.bind_symbolic_shape %[[EXPAND]], [%[[S0]]], affine_map<()[s0] -> (s0, 2)> : !torch.vtensor<[?,2],f32>
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def test_broadcast_with_dynamic_shapes():
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class Basic(nn.Module):
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def __init__(self):
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super().__init__()
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def forward(self, x, y):
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return torch.broadcast_to(x, (y.shape[0], -1))
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# Sample inputs
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x = torch.randn(1, 2)
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y = torch.randn(10)
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dim_0 = Dim("dim_0")
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dynamic_shapes = {
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"x": {},
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"y": {0: dim_0},
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}
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m = fx.export_and_import(
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Basic(),
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x,
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y,
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dynamic_shapes=dynamic_shapes,
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func_name="test_net",
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import_symbolic_shape_expressions=True,
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)
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print(m)
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@make_boxed_compiler
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def fx_import_aot_autograd_backend(
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gm: torch.fx.GraphModule, example_inputs: List[torch.Tensor]
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):
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print(gm.print_readable(False), flush=True)
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m = fx.stateless_fx_import(gm, model_name=get_aot_graph_name())
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print(m, flush=True)
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return gm
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@run
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# CHECK-LABEL: test_stateless_fx_import
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# CHECK: func.func @[[basic:[a-zA-Z0-9_]+]](%arg0: !torch.vtensor<[3,4],f32>) -> !torch.vtensor<[3,4],f32>
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# CHECK-NEXT: %0 = torch.aten.tanh %arg0 : !torch.vtensor<[3,4],f32> -> !torch.vtensor<[3,4],f32>
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# CHECK-NEXT: return %0 : !torch.vtensor<[3,4],f32>
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def test_stateless_fx_import():
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fx_import_backend = aot_autograd(fw_compiler=fx_import_aot_autograd_backend)
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set_model_name("basic_forward")
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@torch._dynamo.optimize(backend=fx_import_backend)
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def basic_forward(x):
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return torch.tanh(x)
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basic_forward(torch.randn(3, 4))
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@run
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# CHECK-LABEL: test_full
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# CHECK: %2 = torch.aten.fill.Scalar %1, %int0 : !torch.vtensor<[],i1>, !torch.int -> !torch.vtensor<[],i1>
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def test_full():
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class Basic(nn.Module):
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def __init__(self):
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super().__init__()
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def forward(self):
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return torch.full(
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[],
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False,
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dtype=torch.bool,
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layout=torch.strided,
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device="cpu",
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pin_memory=False,
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)
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m = fx.export_and_import(Basic(), func_name="test_full", enable_graph_printing=True)
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run_pipeline_with_repro_report(
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m,
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f"builtin.module(torch-simplification-pipeline)",
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"torch-simplification-pipeline",
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)
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print(m)
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