refactor callback for ge backend

This commit is contained in:
kingfo 2020-04-03 12:02:41 +08:00 committed by chang zherui
parent 99ce88ba62
commit cdbef85e5e
9 changed files with 246 additions and 163 deletions

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@ -87,7 +87,22 @@ ms_build_flatbuffers("${FLATBUFFER_IN}" "${FLATBUFFER_IN}" GENERATED_OUTPUT_DIR
file(GLOB_RECURSE MINDSPORE_SRC_LIST RELATIVE ${CMAKE_CURRENT_SOURCE_DIR} file(GLOB_RECURSE MINDSPORE_SRC_LIST RELATIVE ${CMAKE_CURRENT_SOURCE_DIR}
"ir/*.cc" "ir/*.cc"
"ir/dtype/*.cc" "ir/dtype/*.cc"
"utils/*.cc" "utils/context/ms_context.cc"
"utils/symbolic.cc"
"utils/tensorprint_utils.cc"
"utils/convert_utils.cc"
"utils/graph_utils.cc"
"utils/misc.cc"
"utils/callbacks.cc"
"utils/profile.cc"
"utils/base_ref.cc"
"utils/summary/event_writer.cc"
"utils/log_adapter.cc"
"utils/comm_manager.cc"
"utils/any.cc"
"utils/config_manager.cc"
"utils/system/file_system.cc"
"utils/system/crc32c.cc"
"common/*.cc" "common/*.cc"
"parallel/*.cc" "parallel/*.cc"
"pipeline/pipeline.cc" "pipeline/pipeline.cc"
@ -173,6 +188,7 @@ if(ENABLE_GE)
file(GLOB_RECURSE GE_SRC_LIST RELATIVE ${CMAKE_CURRENT_SOURCE_DIR} file(GLOB_RECURSE GE_SRC_LIST RELATIVE ${CMAKE_CURRENT_SOURCE_DIR}
"transform/*.cc" "transform/*.cc"
"pynative/pynative_execute_ge.cc" "pynative/pynative_execute_ge.cc"
"utils/callbacks_ge.cc"
"pipeline/pipeline_ge.cc" "pipeline/pipeline_ge.cc"
) )
list(APPEND MINDSPORE_SRC_LIST ${GE_SRC_LIST}) list(APPEND MINDSPORE_SRC_LIST ${GE_SRC_LIST})

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@ -616,7 +616,6 @@ py::object ExecutorPy::Run(const py::tuple& args, const py::object& phase) {
return ExecDFGraph(info_, args, phase_s); return ExecDFGraph(info_, args, phase_s);
} }
#else #else
MS_LOG(WARNING) << "In ut test " << size << phase_s;
if (backend == "ge") { if (backend == "ge") {
std::shared_ptr<py::object> ret_val = std::make_shared<py::object>(); std::shared_ptr<py::object> ret_val = std::make_shared<py::object>();
if (info_.count(phase_s) != 0 && info_[phase_s]->func_graph != nullptr) { if (info_.count(phase_s) != 0 && info_[phase_s]->func_graph != nullptr) {

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@ -24,6 +24,9 @@
#include "utils/callbacks.h" #include "utils/callbacks.h"
#include "utils/utils.h" #include "utils/utils.h"
#include "./common.h" #include "./common.h"
#ifdef ENABLE_GE
#include "utils/callbacks_ge.h"
#endif
#ifdef NO_GE_CLIENT #ifdef NO_GE_CLIENT
namespace ge { namespace ge {

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@ -20,10 +20,6 @@
#include <memory> #include <memory>
#include <vector> #include <vector>
#include "pybind11/pybind11.h" #include "pybind11/pybind11.h"
#ifdef ENABLE_GE
#include "transform/df_graph_manager.h"
#include "transform/util.h"
#endif
#include "pipeline/parse/data_converter.h" #include "pipeline/parse/data_converter.h"
#include "pipeline/parse/python_adapter.h" #include "pipeline/parse/python_adapter.h"
#include "utils/visible.h" #include "utils/visible.h"
@ -38,155 +34,6 @@ const char kSummary[] = "Summary";
const char kCheckPoint[] = "Save"; const char kCheckPoint[] = "Save";
const int ONE_SHAPE = 1; const int ONE_SHAPE = 1;
#ifdef ENABLE_GE
using mindspore::transform::Status;
using mindspore::transform::TransformUtil;
bool GetParameterShape(const FuncGraphPtr& graph, const std::string& param_name,
const std::shared_ptr<std::vector<int>>& shape) {
if (graph == nullptr) {
MS_LOG(ERROR) << "Graph is null, can not get graph parameter";
return false;
}
auto parameter_nodes = graph->parameters();
for (auto& node : parameter_nodes) {
ParameterPtr param_node = std::static_pointer_cast<Parameter>(node);
if (param_node == nullptr) {
MS_LOG(ERROR) << "Parameter node is null, can not get graph parameter";
return false;
}
if (param_node->name() == param_name) {
py::object parameter = param_node->default_param();
ValuePtr value = parse::data_converter::PyDataToValue(parameter);
TensorPtr tensor = std::dynamic_pointer_cast<tensor::Tensor>(value);
if (tensor == nullptr) {
shape->push_back(ONE_SHAPE);
} else {
*shape = tensor->shape();
}
return true;
}
}
MS_LOG(ERROR) << "Can not find parameter of name:" << param_name;
return false;
}
static TensorPtr GetMeTensorTransformed(uint32_t graph_id, const std::string& parameter_name,
const std::shared_ptr<ge::Tensor>& ge_tensor_ptr) {
FuncGraphPtr anf_graph = transform::DfGraphManager::GetInstance().GetAnfGraph(graph_id);
if (anf_graph == nullptr) {
MS_LOG(ERROR) << "Get anf graph failed during callback";
return nullptr;
}
std::shared_ptr<std::vector<int>> parameter_shape_ptr = std::make_shared<std::vector<int>>();
if (!GetParameterShape(anf_graph, parameter_name, parameter_shape_ptr)) {
MS_LOG(ERROR) << "Can not get parameter shape during callback";
return nullptr;
}
return TransformUtil::ConvertGeTensor(ge_tensor_ptr, *parameter_shape_ptr);
}
uint32_t CheckpointSaveCallback(uint32_t graph_id, const std::map<std::string, ge::Tensor>& params_list) {
// Acquire GIL before calling Python code
py::gil_scoped_acquire acquire;
MS_LOG(DEBUG) << "Start the checkpoint save callback function in checkpoint save process.";
py::list parameter_list = py::list();
for (auto& item : params_list) {
std::string name = item.first;
std::shared_ptr<ge::Tensor> ge_tensor_ptr = std::make_shared<ge::Tensor>(item.second);
TensorPtr tensor_ptr = GetMeTensorTransformed(graph_id, name, ge_tensor_ptr);
if (tensor_ptr == nullptr) {
MS_LOG(EXCEPTION) << "Transform ge tensor to me tensor failed";
}
py::dict param_dict;
param_dict["name"] = name;
param_dict["data"] = tensor_ptr;
parameter_list.append(param_dict);
}
py::bool_ ret =
parse::python_adapter::CallPyFn(PYTHON_MOD_CALLBACK_MODULE, PYTHON_FUN_PROCESS_CHECKPOINT, parameter_list);
auto bool_ret = py::cast<bool>(ret);
uint32_t status = Status::SUCCESS;
if (!bool_ret) {
status = Status::FAILED;
MS_LOG(ERROR) << "python checkpoint return false during callback";
}
return status;
}
static TensorPtr GetMeTensorForSummary(const std::string& name, const std::shared_ptr<ge::Tensor>& ge_tensor_ptr) {
// confirm the type by name
// Format: xxx[:Scalar] xxx[:Image] xxx[:Tensor]
if (name.empty()) {
MS_LOG(EXCEPTION) << "The summary name is empty.";
}
auto bpos = name.rfind("[:");
if (bpos >= name.size()) {
MS_LOG(EXCEPTION) << "The summary name(" << name << ") is invalid.";
}
auto tname = name.substr(bpos);
if (tname == "[:Scalar]") {
MS_LOG(DEBUG) << "The summary(" << name << ") is Scalar";
// process the scalar type summary
// Because the ge tensor is dim = 4, so set the (1,1,1,1)-->(1,)
// We do the (1,) shape is scalar
auto shape = std::vector<int>({ONE_SHAPE});
return TransformUtil::ConvertGeTensor(ge_tensor_ptr, shape);
}
if (tname == "[:Tensor]") {
MS_LOG(DEBUG) << "The summary(" << name << ") is Tensor";
// process the tensor summary
// Now we can't get the real shape, so we keep same shape with GE
return TransformUtil::ConvertGeTensor(ge_tensor_ptr);
}
if (tname == "[:Image]") {
MS_LOG(DEBUG) << "The summary(" << name << ") is Image";
// process the Image summary
// Image dim = 4, is same with ge, so we keep same shape with GE
return TransformUtil::ConvertGeTensor(ge_tensor_ptr);
}
MS_LOG(EXCEPTION) << "The summary name(" << name << ") is invalid.";
}
// Cache the summary callback data
// Output Format: [{"name": tag_name, "data": tensor}, {"name": tag_name, "data": tensor},...]
uint32_t MS_EXPORT SummarySaveCallback(uint32_t graph_id, const std::map<std::string, ge::Tensor>& params_list) {
// Acquire GIL before calling Python code
py::gil_scoped_acquire acquire;
MS_LOG(DEBUG) << "Start the summary save callback function for graph " << graph_id << ".";
py::list summary_list = py::list();
MS_LOG(DEBUG) << "Param list size = " << params_list.size();
for (auto& item : params_list) {
std::string tag_name = item.first;
std::shared_ptr<ge::Tensor> ge_tensor_ptr = std::make_shared<ge::Tensor>(item.second);
TensorPtr tensor_ptr = GetMeTensorForSummary(tag_name, ge_tensor_ptr);
if (tensor_ptr == nullptr) {
MS_LOG(EXCEPTION) << "ConvertGeTensor return tensor is null";
}
py::dict summary_value_dict;
summary_value_dict["name"] = tag_name;
summary_value_dict["data"] = tensor_ptr;
summary_list.append(summary_value_dict);
}
py::bool_ ret = parse::python_adapter::CallPyFn(PYTHON_MOD_CALLBACK_MODULE, PYTHON_FUN_PROCESS_SUMMARY, summary_list);
auto bool_ret = py::cast<bool>(ret);
if (!bool_ret) {
MS_LOG(ERROR) << "Python checkpoint return false during callback";
return Status::FAILED;
}
MS_LOG(DEBUG) << "End the summary save callback function.";
return Status::SUCCESS;
}
#endif
// Cache the summary callback data from ME session // Cache the summary callback data from ME session
// Remove the GE module on new architecture // Remove the GE module on new architecture
// Output Format: [{"name": tag_name, "data": tensor}, {"name": tag_name, "data": tensor},...] // Output Format: [{"name": tag_name, "data": tensor}, {"name": tag_name, "data": tensor},...]

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@ -21,10 +21,6 @@
#include <vector> #include <vector>
#include <memory> #include <memory>
#include "ir/meta_tensor.h" #include "ir/meta_tensor.h"
#ifdef ENABLE_GE
#include "transform/types.h"
#include "transform/util.h"
#endif
namespace mindspore { namespace mindspore {
namespace callbacks { namespace callbacks {
@ -45,10 +41,6 @@ const int kCallbackFalied = 1;
bool GetParameterShape(const FuncGraphPtr& anf_graph, const std::string& param_name, bool GetParameterShape(const FuncGraphPtr& anf_graph, const std::string& param_name,
const std::shared_ptr<std::vector<int>>& shape); const std::shared_ptr<std::vector<int>>& shape);
#ifdef ENABLE_GE
uint32_t CheckpointSaveCallback(uint32_t, const std::map<std::string, ge::Tensor>&);
uint32_t SummarySaveCallback(uint32_t, const std::map<std::string, ge::Tensor>&);
#endif
uint32_t SummarySaveCallback(uint32_t, const std::map<std::string, TensorPtr>&); uint32_t SummarySaveCallback(uint32_t, const std::map<std::string, TensorPtr>&);
} // namespace callbacks } // namespace callbacks

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@ -0,0 +1,182 @@
/**
* Copyright 2020 Huawei Technologies Co., Ltd
*
* 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 "utils/callbacks_ge.h"
#include "pybind11/pybind11.h"
#include "transform/df_graph_manager.h"
#include "transform/util.h"
#include "pipeline/parse/data_converter.h"
#include "pipeline/parse/python_adapter.h"
#include "utils/visible.h"
namespace mindspore {
namespace callbacks {
const char PYTHON_MOD_CALLBACK_MODULE[] = "mindspore.train.callback";
const char PYTHON_FUN_PROCESS_CHECKPOINT[] = "_checkpoint_cb_for_save_op";
const char PYTHON_FUN_PROCESS_SUMMARY[] = "_summary_cb_for_save_op";
const char kSummary[] = "Summary";
const char kCheckPoint[] = "Save";
const int ONE_SHAPE = 1;
using mindspore::transform::Status;
using mindspore::transform::TransformUtil;
bool GetParameterShape(const FuncGraphPtr& graph, const std::string& param_name,
const std::shared_ptr<std::vector<int>>& shape) {
if (graph == nullptr) {
MS_LOG(ERROR) << "Graph is null, can not get graph parameter";
return false;
}
auto parameter_nodes = graph->parameters();
for (auto& node : parameter_nodes) {
ParameterPtr param_node = std::static_pointer_cast<Parameter>(node);
if (param_node == nullptr) {
MS_LOG(ERROR) << "Parameter node is null, can not get graph parameter";
return false;
}
if (param_node->name() == param_name) {
py::object parameter = param_node->default_param();
ValuePtr value = parse::data_converter::PyDataToValue(parameter);
TensorPtr tensor = std::dynamic_pointer_cast<tensor::Tensor>(value);
if (tensor == nullptr) {
shape->push_back(ONE_SHAPE);
} else {
*shape = tensor->shape();
}
return true;
}
}
MS_LOG(ERROR) << "Can not find parameter of name:" << param_name;
return false;
}
static TensorPtr GetMeTensorTransformed(uint32_t graph_id, const std::string& parameter_name,
const std::shared_ptr<ge::Tensor>& ge_tensor_ptr) {
FuncGraphPtr anf_graph = transform::DfGraphManager::GetInstance().GetAnfGraph(graph_id);
if (anf_graph == nullptr) {
MS_LOG(ERROR) << "Get anf graph failed during callback";
return nullptr;
}
std::shared_ptr<std::vector<int>> parameter_shape_ptr = std::make_shared<std::vector<int>>();
if (!GetParameterShape(anf_graph, parameter_name, parameter_shape_ptr)) {
MS_LOG(ERROR) << "Can not get parameter shape during callback";
return nullptr;
}
return TransformUtil::ConvertGeTensor(ge_tensor_ptr, *parameter_shape_ptr);
}
uint32_t CheckpointSaveCallback(uint32_t graph_id, const std::map<std::string, ge::Tensor>& params_list) {
// Acquire GIL before calling Python code
py::gil_scoped_acquire acquire;
MS_LOG(DEBUG) << "Start the checkpoint save callback function in checkpoint save process.";
py::list parameter_list = py::list();
for (auto& item : params_list) {
std::string name = item.first;
std::shared_ptr<ge::Tensor> ge_tensor_ptr = std::make_shared<ge::Tensor>(item.second);
TensorPtr tensor_ptr = GetMeTensorTransformed(graph_id, name, ge_tensor_ptr);
if (tensor_ptr == nullptr) {
MS_LOG(EXCEPTION) << "Transform ge tensor to me tensor failed";
}
py::dict param_dict;
param_dict["name"] = name;
param_dict["data"] = tensor_ptr;
parameter_list.append(param_dict);
}
py::bool_ ret =
parse::python_adapter::CallPyFn(PYTHON_MOD_CALLBACK_MODULE, PYTHON_FUN_PROCESS_CHECKPOINT, parameter_list);
auto bool_ret = py::cast<bool>(ret);
uint32_t status = Status::SUCCESS;
if (!bool_ret) {
status = Status::FAILED;
MS_LOG(ERROR) << "Python checkpoint return false during callback";
}
return status;
}
static TensorPtr GetMeTensorForSummary(const std::string& name, const std::shared_ptr<ge::Tensor>& ge_tensor_ptr) {
// confirm the type by name
// Format: xxx[:Scalar] xxx[:Image] xxx[:Tensor]
if (name.empty()) {
MS_LOG(EXCEPTION) << "The summary name is empty.";
}
auto bpos = name.rfind("[:");
if (bpos >= name.size()) {
MS_LOG(EXCEPTION) << "The summary name(" << name << ") is invalid.";
}
auto tname = name.substr(bpos);
if (tname == "[:Scalar]") {
MS_LOG(DEBUG) << "The summary(" << name << ") is Scalar";
// process the scalar type summary
// Because the ge tensor is dim = 4, so set the (1,1,1,1)-->(1,)
// We do the (1,) shape is scalar
auto shape = std::vector<int>({ONE_SHAPE});
return TransformUtil::ConvertGeTensor(ge_tensor_ptr, shape);
}
if (tname == "[:Tensor]") {
MS_LOG(DEBUG) << "The summary(" << name << ") is Tensor";
// process the tensor summary
// Now we can't get the real shape, so we keep same shape with GE
return TransformUtil::ConvertGeTensor(ge_tensor_ptr);
}
if (tname == "[:Image]") {
MS_LOG(DEBUG) << "The summary(" << name << ") is Image";
// process the Image summary
// Image dim = 4, is same with ge, so we keep same shape with GE
return TransformUtil::ConvertGeTensor(ge_tensor_ptr);
}
MS_LOG(EXCEPTION) << "The summary name(" << name << ") is invalid.";
}
// Cache the summary callback data
// Output Format: [{"name": tag_name, "data": tensor}, {"name": tag_name, "data": tensor},...]
uint32_t MS_EXPORT SummarySaveCallback(uint32_t graph_id, const std::map<std::string, ge::Tensor>& params_list) {
// Acquire GIL before calling Python code
py::gil_scoped_acquire acquire;
MS_LOG(DEBUG) << "Start the summary save callback function for graph " << graph_id << ".";
py::list summary_list = py::list();
MS_LOG(DEBUG) << "Param list size = " << params_list.size();
for (auto& item : params_list) {
std::string tag_name = item.first;
std::shared_ptr<ge::Tensor> ge_tensor_ptr = std::make_shared<ge::Tensor>(item.second);
TensorPtr tensor_ptr = GetMeTensorForSummary(tag_name, ge_tensor_ptr);
if (tensor_ptr == nullptr) {
MS_LOG(EXCEPTION) << "ConvertGeTensor return tensor is null";
}
py::dict summary_value_dict;
summary_value_dict["name"] = tag_name;
summary_value_dict["data"] = tensor_ptr;
summary_list.append(summary_value_dict);
}
py::bool_ ret = parse::python_adapter::CallPyFn(PYTHON_MOD_CALLBACK_MODULE, PYTHON_FUN_PROCESS_SUMMARY, summary_list);
auto bool_ret = py::cast<bool>(ret);
if (!bool_ret) {
MS_LOG(ERROR) << "Python checkpoint return false during callback";
return Status::FAILED;
}
MS_LOG(DEBUG) << "End the summary save callback function.";
return Status::SUCCESS;
}
} // namespace callbacks
} // namespace mindspore

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@ -0,0 +1,38 @@
/**
* Copyright 2020 Huawei Technologies Co., Ltd
*
* 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.
*/
#ifndef MINDSPORE_CCSRC_UTILS_CALLBACKS_GE_H_
#define MINDSPORE_CCSRC_UTILS_CALLBACKS_GE_H_
#include <map>
#include <vector>
#include <string>
#include <memory>
#include "transform/types.h"
#include "transform/util.h"
#include "ir/meta_tensor.h"
namespace mindspore {
namespace callbacks {
using mindspore::tensor::TensorPtr;
uint32_t CheckpointSaveCallback(uint32_t, const std::map<std::string, ge::Tensor>&);
uint32_t SummarySaveCallback(uint32_t, const std::map<std::string, ge::Tensor>&);
} // namespace callbacks
} // namespace mindspore
#endif // MINDSPORE_CCSRC_UTILS_CALLBACKS_GE_H_

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@ -24,6 +24,9 @@
#include "utils/graph_utils.h" #include "utils/graph_utils.h"
#include "session/session_factory.h" #include "session/session_factory.h"
#include "common/utils.h" #include "common/utils.h"
#ifdef ENABLE_GE
#include "utils/callbacks_ge.h"
#endif
namespace mindspore { namespace mindspore {
namespace compile { namespace compile {

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@ -22,6 +22,9 @@
#include "pipeline/parse/python_adapter.h" #include "pipeline/parse/python_adapter.h"
#include "transform/df_graph_manager.h" #include "transform/df_graph_manager.h"
#include "debug/draw.h" #include "debug/draw.h"
#ifdef ENABLE_GE
#include "utils/callbacks_ge.h"
#endif
namespace mindspore { namespace mindspore {
namespace python_adapter = mindspore::parse::python_adapter; namespace python_adapter = mindspore::parse::python_adapter;