From a9f8153453cf9af79be37dfb7d8a8089f3b638bc Mon Sep 17 00:00:00 2001 From: heliqi Date: Thu, 9 Dec 2021 18:06:30 +0800 Subject: [PATCH] add transpose_flatten_concat_fuse_pass test case (#37675) * add transpose_flatten_concat pass * modify skip func to ignore_pass_case func * delete input_shape limit * modify get node order --- .../ir/transpose_flatten_concat_fuse_pass.cc | 32 ++- ...test_transpose_flatten_concat_fuse_pass.py | 187 ++++++++++++------ 2 files changed, 162 insertions(+), 57 deletions(-) diff --git a/paddle/fluid/framework/ir/transpose_flatten_concat_fuse_pass.cc b/paddle/fluid/framework/ir/transpose_flatten_concat_fuse_pass.cc index 523c2161326..f3d96c38506 100644 --- a/paddle/fluid/framework/ir/transpose_flatten_concat_fuse_pass.cc +++ b/paddle/fluid/framework/ir/transpose_flatten_concat_fuse_pass.cc @@ -84,13 +84,16 @@ void TransposeFlattenConcatFusePass::RunTransposeFlattenConcatFuse( LOG(WARNING) << "Pass in op compat failed."; return; } + const int kNumFields = 5; const int kTransOffset = 1; const int kTransOutOffset = 2; const int kFlattenOffset = 3; const int kFlattenOutOffset = 4; - std::vector nodes; + std::vector nodes; + std::vector trans_axis0; + int flatten_axis0; for (int i = 0; i < times; i++) { PADDLE_ENFORCE_NOT_NULL( subgraph.at(pattern.GetPDNode("transpose" + std::to_string(i))), @@ -112,6 +115,33 @@ void TransposeFlattenConcatFusePass::RunTransposeFlattenConcatFuse( platform::errors::NotFound("Can not find %s in subgraph.", input_nodes[i]->name())); + if (i == 0) { + trans_axis0 = BOOST_GET_CONST( + std::vector, + subgraph.at(pattern.GetPDNode("transpose" + std::to_string(0))) + ->Op() + ->GetAttr("axis")); + flatten_axis0 = BOOST_GET_CONST( + int, subgraph.at(pattern.GetPDNode("flatten" + std::to_string(0))) + ->Op() + ->GetAttr("axis")); + } else { + std::vector trans_axis = BOOST_GET_CONST( + std::vector, + subgraph.at(pattern.GetPDNode("transpose" + std::to_string(i))) + ->Op() + ->GetAttr("axis")); + // All axis of transpose should be the same + if (trans_axis0 != trans_axis) return; + + int flatten_axis = BOOST_GET_CONST( + int, subgraph.at(pattern.GetPDNode("flatten" + std::to_string(0))) + ->Op() + ->GetAttr("axis")); + // All axis of flatten should be the same + if (flatten_axis0 != flatten_axis) return; + } + nodes.push_back(subgraph.at(input_nodes[i])); nodes.push_back( subgraph.at(pattern.GetPDNode("transpose" + std::to_string(i)))); diff --git a/python/paddle/fluid/tests/unittests/ir/inference/test_transpose_flatten_concat_fuse_pass.py b/python/paddle/fluid/tests/unittests/ir/inference/test_transpose_flatten_concat_fuse_pass.py index 83d4b7091cb..64c3042b63c 100644 --- a/python/paddle/fluid/tests/unittests/ir/inference/test_transpose_flatten_concat_fuse_pass.py +++ b/python/paddle/fluid/tests/unittests/ir/inference/test_transpose_flatten_concat_fuse_pass.py @@ -1,4 +1,4 @@ -# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved. +# Copyright (c) 2021 PaddlePaddle Authors. All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. @@ -12,72 +12,147 @@ # See the License for the specific language governing permissions and # limitations under the License. +from auto_scan_test import PassAutoScanTest, IgnoreReasons +from program_config import TensorConfig, ProgramConfig, OpConfig +from functools import partial +from typing import Optional, List, Callable, Dict, Any, Set import unittest -import numpy as np -from inference_pass_test import InferencePassTest -import paddle.fluid as fluid -import paddle.fluid.core as core -from paddle.fluid.core import PassVersionChecker +import hypothesis +from hypothesis import given, settings, seed, example, assume, reproduce_failure +import hypothesis.strategies as st -class TransposeFlattenConcatFusePassTest(InferencePassTest): - def setUp(self): - with fluid.program_guard(self.main_program, self.startup_program): - data1 = fluid.data(name="data1", shape=[5, 5, 5], dtype="float32") - data2 = fluid.data(name="data2", shape=[5, 5, 5], dtype="float32") - trans1 = fluid.layers.transpose(data1, perm=[2, 1, 0]) - trans2 = fluid.layers.transpose(data2, perm=[2, 1, 0]) - flatt1 = fluid.layers.flatten(trans1) - flatt2 = fluid.layers.flatten(trans2) - concat_out = fluid.layers.concat([flatt1, flatt2]) - # There is no parameters for above structure. - # Hence, append a batch_norm to avoid failure caused by load_combined. - out = fluid.layers.batch_norm(concat_out, is_test=True) - self.feeds = { - "data1": np.random.random([5, 5, 5]).astype("float32"), - "data2": np.random.random([5, 5, 5]).astype("float32") - } - self.fetch_list = [out] +class TestTransposeFlattenConcatFusePass(PassAutoScanTest): + """ + x_1_var x_2_var + | | + transpose2 transpose2 + | | + flatten2 flatten2 + \ / + flatten2_out_var flatten2_out_var + \ / + concat + """ - def test_check_output(self): - # There is no cpu pass for transpose_flatten_concat_fuse - if core.is_compiled_with_cuda(): - use_gpu = True - self.check_output_with_option(use_gpu) + def sample_predictor_configs(self, program_config): + # TRT + # after tensorrt_subgraph_pass ,The pass needs to be deleted on TRT - PassVersionChecker.IsCompatible('transpose_flatten_concat_fuse_pass') + # for gpu + config = self.create_inference_config(use_gpu=True) + yield config, ["fusion_transpose_flatten_concat", ], (1e-5, 1e-5) + def is_program_valid(self, prog_config): + concat_axis = prog_config.ops[-1].attrs["axis"] + ops_num = len(prog_config.ops) - 1 + if ops_num % 2 != 0: + return False + input_num = ops_num // 2 + flatten_shape = 0 + x_trans_axis = prog_config.ops[0].attrs["axis"] + x_flatten_axis = prog_config.ops[1].attrs["axis"] + for i in range(input_num): + input_name = "transpose2_x" + str(i) + input_shape = prog_config.inputs[input_name].shape + trans_axis = prog_config.ops[i * 2].attrs["axis"] + if x_trans_axis != trans_axis: + return False + # calculate shape after transpose + input_shape = [input_shape[j] for j in trans_axis] + # calculate shape after flateen + flatten_axis = prog_config.ops[i * 2 + 1].attrs["axis"] + if x_flatten_axis != flatten_axis: + return False + flatten_shape1 = flatten_shape2 = 1 + for j in range(len(input_shape)): + if j < flatten_axis: + flatten_shape1 *= input_shape[j] + else: + flatten_shape2 *= input_shape[j] + if concat_axis == 0: + if i == 0: + flatten_shape = flatten_shape2 + elif flatten_shape != flatten_shape2: + return False + else: + if i == 0: + flatten_shape = flatten_shape1 + elif flatten_shape != flatten_shape1: + return False + return True -class TransposeFlattenConcatFusePassWithAxisTest(InferencePassTest): - def setUp(self): - with fluid.program_guard(self.main_program, self.startup_program): - data1 = fluid.data(name="data1", shape=[5, 5, 5], dtype="float32") - data2 = fluid.data(name="data2", shape=[5, 5, 5], dtype="float32") - trans1 = fluid.layers.transpose(data1, perm=[2, 1, 0]) - trans2 = fluid.layers.transpose(data2, perm=[2, 1, 0]) - flatt1 = fluid.layers.flatten(trans1, axis=2) - flatt2 = fluid.layers.flatten(trans2, axis=2) - concat_out = fluid.layers.concat([flatt1, flatt2], axis=1) - # There is no parameters for above structure. - # Hence, append a batch_norm to avoid failure caused by load_combined. - out = fluid.layers.batch_norm(concat_out, is_test=True) + def sample_program_config(self, draw): + times = draw(st.integers(min_value=1, max_value=6)) + concat_axis = draw(st.integers(min_value=0, max_value=1)) + ops = [] + concat_input = [] + inputs = {} + x_shape_rank = draw(st.integers(min_value=2, max_value=5)) + # Generate axis of transpose + trans_axis = [j for j in range(x_shape_rank)] + for j in range(x_shape_rank - 1): + if draw(st.booleans()): + trans_axis[j], trans_axis[-1] = trans_axis[-1], trans_axis[j] + # Generate axis of flatten + flatten_axis = draw( + st.integers( + min_value=0, max_value=x_shape_rank - 1)) + for i in range(times): + # Generate x_shape of transpose + x_shape = draw( + st.lists( + st.integers( + min_value=1, max_value=10), + min_size=x_shape_rank, + max_size=x_shape_rank)) - self.feeds = { - "data1": np.random.random([5, 5, 5]).astype("float32"), - "data2": np.random.random([5, 5, 5]).astype("float32") - } - self.fetch_list = [out] + str_i = str(i) + transpose_op = OpConfig( + "transpose2", + inputs={"X": ["transpose2_x" + str_i], }, + axis=trans_axis, + outputs={ + "Out": ["trans_out" + str_i], + "XShape": ["trans_shape" + str_i] + }, ) + ops.append(transpose_op) + flatten_op = OpConfig( + "flatten2", + inputs={"X": ["trans_out" + str_i], }, + axis=flatten_axis, + outputs={ + "Out": ["flatten2_out" + str_i], + "XShape": ["xshape" + str_i] + }, ) + concat_input.append("flatten2_out" + str_i) + ops.append(flatten_op) + inputs["transpose2_x" + str_i] = TensorConfig(shape=x_shape) - def test_check_output(self): - # There is no cpu pass for transpose_flatten_concat_fuse - if core.is_compiled_with_cuda(): - use_gpu = True - self.check_output_with_option(use_gpu) + concat_op = OpConfig( + "concat", + inputs={ + "X": concat_input, + "AxisTensor": [], + }, + outputs={"Out": ["concat_out"]}, + axis=concat_axis, ) - self.assertTrue( - PassVersionChecker.IsCompatible( - 'transpose_flatten_concat_fuse_pass')) + ops.append(concat_op) + + program_config = ProgramConfig( + ops=ops, + weights={}, + inputs=inputs, + outputs=ops[-1].outputs["Out"], ) + return program_config + + def test(self): + self.run_and_statis( + quant=False, + max_examples=300, + passes=["transpose_flatten_concat_fuse_pass"]) if __name__ == "__main__": -- GitLab