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graphengine/ge/graph/passes/constant_folding_pass.cc

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  1. /**

  2.  * Copyright 2020 Huawei Technologies Co., Ltd

  3.  *

  4.  * Licensed under the Apache License, Version 2.0 (the "License");

  5.  * you may not use this file except in compliance with the License.

  6.  * You may obtain a copy of the License at

  7.  *

  8.  * http://www.apache.org/licenses/LICENSE-2.0

  9.  *

  10.  * Unless required by applicable law or agreed to in writing, software

  11.  * distributed under the License is distributed on an "AS IS" BASIS,

  12.  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.

  13.  * See the License for the specific language governing permissions and

  14.  * limitations under the License.

  15.  */

  16. 

  17. #include "graph/passes/constant_folding_pass.h"

  18. 

  19. #include <vector>

  20. #include "external/graph/operator_factory.h"

  21. #include "graph/utils/node_utils.h"

  22. #include "graph/utils/type_utils.h"

  23. #include "ge_local_engine/engine/host_cpu_engine.h"

  24. #include "init/gelib.h"

  25. 

  26. namespace ge {

  27. const int64_t kStartCallNum = 1;

  28. const std::string kKernelLibName = "aicpu_tf_kernel";

  29. const std::string kOpsFlagClose = "0";

  30. 

  31. const map<string, pair<uint64_t, uint64_t>> &ConstantFoldingPass::GetGeConstantFoldingPerfStatistic() const {

  32.   return statistic_of_ge_constant_folding_;

  33. }

  34. const map<string, pair<uint64_t, uint64_t>> &ConstantFoldingPass::GetOpConstantFoldingPerfStatistic() const {

  35.   return statistic_of_op_constant_folding_;

  36. }

  37. 

  38. Status ConstantFoldingPass::RunOpKernelWithCheck(NodePtr &node, const vector<ConstGeTensorPtr> &inputs,

  39.                                                  std::vector<GeTensorPtr> &outputs) {

  40.   std::shared_ptr<GELib> instance_ptr = ge::GELib::GetInstance();

  41.   if ((instance_ptr == nullptr) || (!instance_ptr->InitFlag())) {

  42.     GELOGE(GE_CLI_GE_NOT_INITIALIZED, "[Check][Param] GE is not initialized or is finalized.");

  43.     return UNSUPPORTED;

  44.   }

  45.   OpsKernelInfoStorePtr kernel_info = instance_ptr->OpsKernelManagerObj().GetOpsKernelInfoStore(kKernelLibName);

  46.   if (kernel_info == nullptr) {

  47.     GELOGE(FAILED, "[Get][OpsKernelInfoStore] %s failed", kKernelLibName.c_str());

  48.     return UNSUPPORTED;

  49.   }

  50. 

  51.   std::string ops_flag;

  52.   kernel_info->opsFlagCheck(*node, ops_flag);

  53.   if (ops_flag == kOpsFlagClose) {

  54.     return UNSUPPORTED;

  55.   }

  56.   return RunOpKernel(node, inputs, outputs);

  57. }

  58. 

  59. Status ConstantFoldingPass::RunOpKernel(NodePtr &node,

  60.                                         const vector<ConstGeTensorPtr> &inputs,

  61.                                         std::vector<GeTensorPtr> &outputs) {

  62.   return HostCpuEngine::GetInstance().Run(node, inputs, outputs);

  63. }

  64. 

  65. Status ConstantFoldingPass::Run(ge::NodePtr &node) {

  66.   GE_CHECK_NOTNULL(node);

  67.   GELOGD("Begin to run constant folding on node %s", node->GetName().c_str());

  68. 

  69.   if (folding_pass::IsNoNeedConstantFolding(node)) {

  70.     return SUCCESS;

  71.   }

  72.   OpDescPtr node_desc = node->GetOpDesc();

  73.   DataType data_type = node_desc->GetOutputDesc(0).GetDataType();

  74.   Format format = node_desc->GetOutputDesc(0).GetFormat();

  75.   GELOGD("Current [node:%s, type:%s] info: format: %s, datatype:%s", node->GetName().c_str(), node->GetType().c_str(),

  76.          TypeUtils::FormatToSerialString(format).c_str(), TypeUtils::DataTypeToSerialString(data_type).c_str());

  77.   auto input_nodes = OpDescUtils::GetConstInputNode(*node);

  78.   if (input_nodes.empty() || input_nodes.size() != node_desc->GetInputsSize()) {

  79.     GELOGD("Node:%s, const input nodes size is %zu, and nodeDesc inputsSize is %zu.", node->GetName().c_str(),

  80.            input_nodes.size(), node_desc->GetInputsSize());

  81.     return SUCCESS;

  82.   }

  83. 

  84.   auto inputs = OpDescUtils::GetInputData(input_nodes);

  85.   vector<GeTensorPtr> outputs;

  86.   // Statistic of ge constant folding kernel

  87.   uint64_t start_time = GetCurrentTimestamp();

  88.   auto ret = RunOpKernelWithCheck(node, inputs, outputs);

  89.   if (ret != SUCCESS) {

  90.     auto op_kernel = folding_pass::GetKernelByType(node);

  91.     if (op_kernel == nullptr) {

  92.       GELOGD("No op kernel for node %s type %s, skip the constant folding", node->GetName().c_str(),

  93.              node->GetType().c_str());

  94.       return SUCCESS;

  95.     }

  96. 

  97.     // Statistic of op and fe constant folding kernel

  98.     start_time = GetCurrentTimestamp();

  99.     ret = op_kernel->Compute(node_desc, inputs, outputs);

  100.     uint64_t cost_time = GetCurrentTimestamp() - start_time;

  101.     if (statistic_of_ge_constant_folding_.find(node->GetType()) != statistic_of_ge_constant_folding_.end()) {

  102.       uint64_t &cnt = statistic_of_ge_constant_folding_[node->GetType()].first;

  103.       uint64_t &cur_cost_time = statistic_of_ge_constant_folding_[node->GetType()].second;

  104.       cnt++;

  105.       cur_cost_time += cost_time;

  106.     } else {

  107.       statistic_of_ge_constant_folding_[node->GetType()] = std::pair<uint64_t, uint64_t>(kStartCallNum, cost_time);

  108.     }

  109.     if (ret != SUCCESS) {

  110.       if (ret == NOT_CHANGED) {

  111.         GELOGD("Node %s type %s, compute terminates and exits the constant folding.", node->GetName().c_str(),

  112.                node->GetType().c_str());

  113.         return SUCCESS;

  114.       }

  115.       REPORT_CALL_ERROR("E19999", "Calculate for node %s(%s) failed",

  116.                         node->GetName().c_str(), node->GetType().c_str());

  117.       GELOGE(INTERNAL_ERROR, "[Call][Calculate] for node %s failed in constant folding", node->GetName().c_str());

  118.       return ret;

  119.     }

  120.     GELOGI("Node %s type %s, constant folding compute success.", node->GetName().c_str(), node->GetType().c_str());

  121.   } else {

  122.     if (statistic_of_op_constant_folding_.find(node->GetType()) != statistic_of_op_constant_folding_.end()) {

  123.       uint64_t &cnt = statistic_of_op_constant_folding_[node->GetType()].first;

  124.       uint64_t &cost_time = statistic_of_op_constant_folding_[node->GetType()].second;

  125.       cnt++;

  126.       cost_time += GetCurrentTimestamp() - start_time;

  127.     } else {

  128.       statistic_of_op_constant_folding_[node->GetType()] =

  129.           std::pair<uint64_t, uint64_t>(kStartCallNum, GetCurrentTimestamp() - start_time);

  130.     }

  131.   }

  132. 

  133.   if (outputs.empty()) {

  134.     REPORT_INNER_ERROR("E19999", "After calculate for node %s(%s), output weight is empty, check invalid",

  135.                        node->GetName().c_str(), node->GetType().c_str());

  136.     GELOGE(INTERNAL_ERROR, "[Check][Param] After calculate for node %s(%s), output weight is empty",

  137.            node->GetName().c_str(), node->GetType().c_str());

  138.     return INTERNAL_ERROR;

  139.   }

  140. 

  141.   return Folding(node, outputs);

  142. }

  143. }  // namespace ge