未验证 提交 656c672c 编写于 作者: T tensor-tang 提交者: GitHub

Merge pull request #15051 from tensor-tang/test/seq_pool1

Add seq pool1 inference test
...@@ -108,6 +108,10 @@ inference_analysis_api_test_with_refer_result(test_analyzer_mobilenet_transpose ...@@ -108,6 +108,10 @@ inference_analysis_api_test_with_refer_result(test_analyzer_mobilenet_transpose
inference_analysis_api_test_with_fake_data(test_analyzer_resnet50 inference_analysis_api_test_with_fake_data(test_analyzer_resnet50
"${INFERENCE_DEMO_INSTALL_DIR}/resnet50" analyzer_resnet50_tester.cc "resnet50_model.tar.gz") "${INFERENCE_DEMO_INSTALL_DIR}/resnet50" analyzer_resnet50_tester.cc "resnet50_model.tar.gz")
# seq_pool1
inference_analysis_api_test_with_fake_data(test_analyzer_seq_pool1
"${INFERENCE_DEMO_INSTALL_DIR}/seq_pool1" analyzer_seq_pool1_tester.cc "seq_pool1.tar.gz")
# mobilenet with depthwise_conv op # mobilenet with depthwise_conv op
inference_analysis_api_test_with_fake_data(test_analyzer_mobilenet_depthwise_conv inference_analysis_api_test_with_fake_data(test_analyzer_mobilenet_depthwise_conv
"${INFERENCE_DEMO_INSTALL_DIR}/mobilenet_depthwise_conv" analyzer_resnet50_tester.cc "mobilenet_model.tar.gz") "${INFERENCE_DEMO_INSTALL_DIR}/mobilenet_depthwise_conv" analyzer_resnet50_tester.cc "mobilenet_model.tar.gz")
......
/* Copyright (c) 2018 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.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License. */
#include <fstream>
#include <iostream>
#include "paddle/fluid/inference/tests/api/tester_helper.h"
namespace paddle {
namespace inference {
namespace analysis {
void SetConfig(AnalysisConfig *cfg) {
cfg->param_file = FLAGS_infer_model + "/params";
cfg->prog_file = FLAGS_infer_model + "/model";
cfg->use_gpu = false;
cfg->device = 0;
cfg->enable_ir_optim = true;
cfg->specify_input_name = true;
cfg->SetCpuMathLibraryNumThreads(FLAGS_paddle_num_threads);
}
void SetInput(std::vector<std::vector<PaddleTensor>> *inputs) {
std::vector<std::string> feed_names = {
"slot10000_embed", "slot10001_embed", "slot10004_embed",
"slot10005_embed", "slot10008_embed", "slot10009_embed",
"slot10012_embed", "slot10013_embed", "slot10108_embed",
"slot13324_embed", "slot13325_embed", "slot13326_embed",
"slot13327_embed", "slot13328_embed", "slot13329_embed",
"slot13330_embed", "slot13331_embed", "slot15501_embed",
"slot15502_embed", "slot15503_embed", "slot15504_embed",
"slot15505_embed", "slot15506_embed", "slot15507_embed",
"slot15508_embed", "slot15516_embed", "slot15519_embed",
"slot15523_embed", "slot15531_embed", "slot15533_embed",
"slot15548_embed", "slot15564_embed", "slot15565_embed",
"slot15566_embed", "slot15570_embed", "slot15571_embed",
"slot15572_embed", "slot15573_embed", "slot15574_embed",
"slot15575_embed", "slot15576_embed", "slot15577_embed",
"slot15579_embed", "slot15581_embed", "slot15582_embed",
"slot15583_embed", "slot15584_embed", "slot5016_embed",
"slot5021_embed", "slot6002_embed", "slot6003_embed",
"slot6004_embed", "slot6005_embed", "slot6006_embed",
"slot6007_embed", "slot6008_embed", "slot6009_embed",
"slot6011_embed", "slot6014_embed", "slot6015_embed",
"slot6023_embed", "slot6024_embed", "slot6025_embed",
"slot6027_embed", "slot6029_embed", "slot6031_embed",
"slot6034_embed", "slot6035_embed", "slot6036_embed",
"slot6037_embed", "slot6039_embed", "slot6048_embed",
"slot6050_embed", "slot6058_embed", "slot6059_embed",
"slot6060_embed", "slot6066_embed", "slot6067_embed",
"slot6068_embed", "slot6069_embed", "slot6070_embed",
"slot6071_embed", "slot6072_embed", "slot6073_embed",
"slot6182_embed", "slot6183_embed", "slot6184_embed",
"slot6185_embed", "slot6186_embed", "slot6188_embed",
"slot6189_embed", "slot6190_embed", "slot6201_embed",
"slot6202_embed", "slot6203_embed", "slot6247_embed",
"slot6248_embed", "slot6250_embed", "slot6251_embed",
"slot6807_embed", "slot6808_embed", "slot6809_embed",
"slot6810_embed", "slot6811_embed", "slot6812_embed",
"slot6813_embed", "slot6814_embed", "slot6815_embed",
"slot6816_embed", "slot6817_embed", "slot6818_embed",
"slot6819_embed", "slot6820_embed", "slot6822_embed",
"slot6823_embed", "slot6826_embed", "slot7002_embed",
"slot7003_embed", "slot7004_embed", "slot7005_embed",
"slot7006_embed", "slot7008_embed", "slot7009_embed",
"slot7010_embed", "slot7011_embed", "slot7013_embed",
"slot7014_embed", "slot7015_embed", "slot7016_embed",
"slot7017_embed", "slot7019_embed", "slot7100_embed",
"slot7506_embed", "slot7507_embed", "slot7514_embed",
"slot7515_embed", "slot7516_embed"};
SetFakeImageInput(inputs, FLAGS_infer_model, true, "model", "params",
&feed_names);
}
// Easy for profiling independently.
void profile(bool use_mkldnn = false) {
AnalysisConfig cfg;
SetConfig(&cfg);
if (use_mkldnn) {
cfg.EnableMKLDNN();
}
std::vector<PaddleTensor> outputs;
std::vector<std::vector<PaddleTensor>> input_slots_all;
SetInput(&input_slots_all);
TestPrediction(reinterpret_cast<const PaddlePredictor::Config *>(&cfg),
input_slots_all, &outputs, FLAGS_num_threads);
}
TEST(Analyzer_seq_pool1, profile) { profile(); }
// Check the fuse status
TEST(Analyzer_seq_pool1, fuse_statis) {
AnalysisConfig cfg;
SetConfig(&cfg);
int num_ops;
auto predictor = CreatePaddlePredictor<AnalysisConfig>(cfg);
auto fuse_statis = GetFuseStatis(
static_cast<AnalysisPredictor *>(predictor.get()), &num_ops);
LOG(INFO) << "num_ops: " << num_ops;
EXPECT_EQ(num_ops, 314);
}
} // namespace analysis
} // namespace inference
} // namespace paddle
...@@ -132,7 +132,8 @@ std::unordered_map<std::string, int> GetFuseStatis(PaddlePredictor *predictor, ...@@ -132,7 +132,8 @@ std::unordered_map<std::string, int> GetFuseStatis(PaddlePredictor *predictor,
void SetFakeImageInput(std::vector<std::vector<PaddleTensor>> *inputs, void SetFakeImageInput(std::vector<std::vector<PaddleTensor>> *inputs,
const std::string &dirname, bool is_combined = true, const std::string &dirname, bool is_combined = true,
std::string model_filename = "model", std::string model_filename = "model",
std::string params_filename = "params") { std::string params_filename = "params",
const std::vector<std::string> *feed_names = nullptr) {
// Set fake_image_data // Set fake_image_data
PADDLE_ENFORCE_EQ(FLAGS_test_all_data, 0, "Only have single batch of data."); PADDLE_ENFORCE_EQ(FLAGS_test_all_data, 0, "Only have single batch of data.");
std::vector<std::vector<int64_t>> feed_target_shapes = GetFeedTargetShapes( std::vector<std::vector<int64_t>> feed_target_shapes = GetFeedTargetShapes(
...@@ -146,26 +147,32 @@ void SetFakeImageInput(std::vector<std::vector<PaddleTensor>> *inputs, ...@@ -146,26 +147,32 @@ void SetFakeImageInput(std::vector<std::vector<PaddleTensor>> *inputs,
os << "}\n"; os << "}\n";
} }
LOG(INFO) << os.str(); LOG(INFO) << os.str();
if (feed_names) {
int dim1 = feed_target_shapes[0][1]; PADDLE_ENFORCE_EQ(feed_names->size(), feed_target_shapes.size());
int dim2 = feed_target_shapes[0][2]; }
int dim3 = feed_target_shapes[0][3]; std::vector<PaddleTensor> input_slots(feed_target_shapes.size());
for (size_t i = 0; i < feed_target_shapes.size(); ++i) {
PaddleTensor input; const auto &feed_shape = feed_target_shapes[i];
std::vector<int> shape({FLAGS_batch_size, dim1, dim2, dim3}); auto &input = input_slots[i];
std::vector<int> shape({FLAGS_batch_size});
for (size_t s = 1; s < feed_shape.size(); ++s) {
shape.push_back(static_cast<int>(feed_shape[s]));
}
if (feed_names) {
input.name = (*feed_names)[i];
}
input.shape = shape; input.shape = shape;
input.dtype = PaddleDType::FLOAT32; input.dtype = PaddleDType::FLOAT32;
size_t len = std::accumulate(shape.begin(), shape.end(), 1,
// fill input data, for profile easily, do not use random data here. [](int a, int b) { return a * b; });
size_t size = FLAGS_batch_size * dim1 * dim2 * dim3; input.data.Resize(len * sizeof(float));
input.data.Resize(size * sizeof(float)); input.lod.assign({{0, static_cast<size_t>(FLAGS_batch_size)}});
float *input_data = static_cast<float *>(input.data.data()); float *input_data = static_cast<float *>(input.data.data());
for (size_t i = 0; i < size; i++) { // fill input data, for profile easily, do not use random data here.
*(input_data + i) = static_cast<float>(i) / size; for (size_t j = 0; j < len; ++j) {
*(input_data + j) = static_cast<float>(j) / len;
}
} }
std::vector<PaddleTensor> input_slots;
input_slots.assign({input});
(*inputs).emplace_back(input_slots); (*inputs).emplace_back(input_slots);
} }
......
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