/* Copyright (c) 2016 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 "paddle/fluid/framework/executor.h" #include "paddle/fluid/framework/channel.h" #include "paddle/fluid/framework/feed_fetch_method.h" #include "paddle/fluid/framework/lod_rank_table.h" #include "paddle/fluid/framework/lod_tensor_array.h" #include "paddle/fluid/framework/op_registry.h" #include "paddle/fluid/framework/reader.h" #include "paddle/fluid/platform/place.h" #include "paddle/fluid/platform/profiler.h" DECLARE_bool(benchmark); DEFINE_bool(check_nan_inf, false, "Checking whether operator produce NAN/INF or not. It will be " "extremely slow so please use this flag wisely."); namespace paddle { namespace framework { namespace { // block id starts from 0. This id is used to represent the codeblock // wrapping the first block 0. int kProgramId = -1; } // namespace ExecutorPrepareContext::ExecutorPrepareContext( const framework::ProgramDesc& prog, size_t block_id) : prog_(prog), block_id_(block_id) {} ExecutorPrepareContext::~ExecutorPrepareContext() { VLOG(5) << "destroy ExecutorPrepareContext"; } Executor::Executor(const platform::Place& place) : place_(place) {} void InitializeVariable(Variable* var, proto::VarType::Type var_type) { if (var_type == proto::VarType::LOD_TENSOR) { var->GetMutable(); } else if (var_type == proto::VarType::SELECTED_ROWS) { var->GetMutable(); } else if (var_type == proto::VarType::FEED_MINIBATCH) { var->GetMutable(); } else if (var_type == proto::VarType::FETCH_LIST) { var->GetMutable(); } else if (var_type == proto::VarType::STEP_SCOPES) { var->GetMutable>(); } else if (var_type == proto::VarType::LOD_RANK_TABLE) { var->GetMutable(); } else if (var_type == proto::VarType::LOD_TENSOR_ARRAY) { var->GetMutable(); } else if (var_type == proto::VarType::PLACE_LIST) { var->GetMutable(); } else if (var_type == proto::VarType::READER) { var->GetMutable(); } else if (var_type == proto::VarType::CHANNEL) { var->GetMutable(); } else if (var_type == proto::VarType::RAW) { // GetMutable will be called in operator } else { PADDLE_THROW( "Variable type %d is not in " "[LOD_TENSOR, SELECTED_ROWS, FEED_MINIBATCH, FETCH_LIST, " "LOD_RANK_TABLE, PLACE_LIST, READER, CHANNEL, RAW]", var_type); } } static void CheckTensorNANOrInf(const std::string& name, const framework::Tensor& tensor) { if (tensor.memory_size() == 0) { return; } if (tensor.type().hash_code() != typeid(float).hash_code() && // NOLINT tensor.type().hash_code() != typeid(double).hash_code()) { // NOLINT return; } PADDLE_ENFORCE(!framework::TensorContainsInf(tensor), "Tensor %s contains Inf", name); PADDLE_ENFORCE(!framework::TensorContainsNAN(tensor), "Tensor %s contains NAN", name); } void Executor::CreateVariables(const ProgramDesc& pdesc, Scope* scope, int block_id) { auto& global_block = pdesc.Block(block_id); const Scope* ancestor_scope = scope; while (ancestor_scope->parent()) { ancestor_scope = ancestor_scope->parent(); } if (ancestor_scope != scope) { for (auto& var : global_block.AllVars()) { if (var->Name() == framework::kEmptyVarName) { continue; } if (var->Persistable()) { auto* ptr = const_cast(ancestor_scope)->Var(var->Name()); InitializeVariable(ptr, var->GetType()); VLOG(3) << "Create Variable " << var->Name() << " global, which pointer is " << ptr; } else { auto* ptr = scope->Var(var->Name()); InitializeVariable(ptr, var->GetType()); VLOG(3) << "Create Variable " << var->Name() << " locally, which pointer is " << ptr; } } } else { for (auto& var : global_block.AllVars()) { auto* ptr = scope->Var(var->Name()); InitializeVariable(ptr, var->GetType()); VLOG(3) << "Create variable " << var->Name() << ", which pointer is " << ptr; } } } void Executor::Run(const ProgramDesc& pdesc, Scope* scope, int block_id, bool create_local_scope, bool create_vars) { platform::RecordBlock b(block_id); auto ctx = Prepare(pdesc, block_id); RunPreparedContext(ctx.get(), scope, create_local_scope, create_vars); } // Check whether the block already has feed operators and feed_holder. // Return false if the block does not have any feed operators. // If some feed operators have been prepended to the block, check that // the info contained in these feed operators matches the feed_targets // and feed_holder_name. Raise exception when any mismatch is found. // Return true if the block has feed operators and holder of matching info. static bool has_feed_operators( const BlockDesc& block, const std::map& feed_targets, const std::string& feed_holder_name) { size_t feed_count = 0; for (auto* op : block.AllOps()) { if (op->Type() == kFeedOpType) { feed_count++; // The input variable's name of feed_op should be feed_holder_name. PADDLE_ENFORCE_EQ(op->Input("X")[0], feed_holder_name, "Input to feed op should be '%s'", feed_holder_name); std::string feed_target_name = op->Output("Out")[0]; PADDLE_ENFORCE( feed_targets.find(feed_target_name) != feed_targets.end(), "Feed operator output name '%s' cannot be found in 'feed_targets'", feed_target_name); } } if (feed_count > 0) { PADDLE_ENFORCE_EQ( feed_count, feed_targets.size(), "The number of feed operators should match 'feed_targets'"); if (!feed_holder_name.empty()) { // When feed operator are present, so should be feed_holder. auto var = block.FindVar(feed_holder_name); PADDLE_ENFORCE_NOT_NULL(var, "Block should already have a '%s' variable", feed_holder_name); PADDLE_ENFORCE_EQ(var->GetType(), proto::VarType::FEED_MINIBATCH, "'%s' variable should be 'FEED_MINIBATCH' type", feed_holder_name); } } return feed_count > 0; } // Check whether the block already has fetch operators and fetch_holder. // Return false if the block does not have any fetch operators. // If some fetch operators have been appended to the block, check that // the info contained in these fetch operators matches the fetch_targets // and fetch_holder_name. Raise exception when any mismatch is found. // Return true if the block has fetch operators and holder of matching info. static bool has_fetch_operators( const BlockDesc& block, const std::map& fetch_targets, const std::string& fetch_holder_name) { size_t fetch_count = 0; for (auto* op : block.AllOps()) { if (op->Type() == kFetchOpType) { fetch_count++; // The output variable's name of fetch_op should be fetch_holder_name. PADDLE_ENFORCE_EQ(op->Output("Out")[0], fetch_holder_name, "Output of fetch op should be '%s'", fetch_holder_name); std::string fetch_target_name = op->Input("X")[0]; PADDLE_ENFORCE( fetch_targets.find(fetch_target_name) != fetch_targets.end(), "Fetch operator input name '%s' cannot be found in 'fetch_targets'", fetch_target_name); } } if (fetch_count > 0) { PADDLE_ENFORCE_EQ( fetch_count, fetch_targets.size(), "The number of fetch operators should match 'fetch_targets'"); if (!fetch_holder_name.empty()) { // When fetch operator are present, so should be fetch_holder. auto var = block.FindVar(fetch_holder_name); PADDLE_ENFORCE_NOT_NULL(var, "Block should already have a '%s' variable", fetch_holder_name); PADDLE_ENFORCE_EQ(var->GetType(), proto::VarType::FETCH_LIST, "'%s' variable should be 'FETCH_LIST' type", fetch_holder_name); } } return fetch_count > 0; } void Executor::Run(const ProgramDesc& program, Scope* scope, std::map& feed_targets, std::map& fetch_targets, bool create_vars, const std::string& feed_holder_name, const std::string& fetch_holder_name) { platform::RecordBlock b(kProgramId); bool has_feed_ops = has_feed_operators(program.Block(0), feed_targets, feed_holder_name); bool has_fetch_ops = has_fetch_operators(program.Block(0), fetch_targets, fetch_holder_name); ProgramDesc* copy_program = const_cast(&program); if (!has_feed_ops || !has_fetch_ops) { copy_program = std::unique_ptr(new ProgramDesc(program)).get(); } auto* global_block = copy_program->MutableBlock(0); if (!has_feed_ops) { // create feed_holder variable auto* feed_holder = global_block->Var(feed_holder_name); feed_holder->SetType(proto::VarType::FEED_MINIBATCH); feed_holder->SetPersistable(true); int i = 0; for (auto& feed_target : feed_targets) { std::string var_name = feed_target.first; VLOG(3) << "feed target's name: " << var_name; // prepend feed op auto* op = global_block->PrependOp(); op->SetType(kFeedOpType); op->SetInput("X", {feed_holder_name}); op->SetOutput("Out", {var_name}); op->SetAttr("col", {static_cast(i)}); op->CheckAttrs(); i++; } } if (!has_fetch_ops) { // create fetch_holder variable auto* fetch_holder = global_block->Var(fetch_holder_name); fetch_holder->SetType(proto::VarType::FETCH_LIST); fetch_holder->SetPersistable(true); int i = 0; for (auto& fetch_target : fetch_targets) { std::string var_name = fetch_target.first; VLOG(3) << "fetch target's name: " << var_name; // append fetch op auto* op = global_block->AppendOp(); op->SetType(kFetchOpType); op->SetInput("X", {var_name}); op->SetOutput("Out", {fetch_holder_name}); op->SetAttr("col", {static_cast(i)}); op->CheckAttrs(); i++; } } auto ctx = Prepare(*copy_program, 0); RunPreparedContext(ctx.get(), scope, feed_targets, fetch_targets, create_vars, feed_holder_name, fetch_holder_name); } std::unique_ptr Executor::Prepare( const ProgramDesc& program, int block_id) { auto* ctx = new ExecutorPrepareContext(program, block_id); PADDLE_ENFORCE_LT(static_cast(block_id), program.Size()); auto& block = program.Block(block_id); for (auto& op_desc : block.AllOps()) { ctx->ops_.push_back(OpRegistry::CreateOp(*op_desc)); } return std::unique_ptr(ctx); } std::vector> Executor::Prepare( const ProgramDesc& program, const std::vector& block_ids) { std::vector> result; for (auto& bid : block_ids) { auto* ctx = new ExecutorPrepareContext(program, bid); PADDLE_ENFORCE_LT(static_cast(bid), program.Size()); auto& block = program.Block(bid); for (auto& op_desc : block.AllOps()) { ctx->ops_.push_back(OpRegistry::CreateOp(*op_desc)); } result.push_back(std::shared_ptr(ctx)); } return result; } void Executor::RunPreparedContext(ExecutorPrepareContext* ctx, Scope* scope, bool create_local_scope, bool create_vars) { Scope* local_scope = scope; if (create_vars) { if (create_local_scope) { local_scope = &scope->NewScope(); } CreateVariables(ctx->prog_, local_scope, ctx->block_id_); } for (auto& op : ctx->ops_) { VLOG(3) << place_ << " " << op->DebugStringEx(local_scope); op->Run(*local_scope, place_); if (FLAGS_benchmark) { VLOG(2) << "Memory used after operator " + op->Type() + " running: " << memory::memory_usage(place_); } if (FLAGS_check_nan_inf) { for (auto& vname : op->OutputVars(true)) { auto* var = local_scope->FindVar(vname); if (var == nullptr) continue; if (var->IsType()) { CheckTensorNANOrInf(vname, var->Get()); } } } } if (create_vars && create_local_scope) { scope->DeleteScope(local_scope); } if (FLAGS_benchmark) { VLOG(2) << "-------------------------------------------------------"; VLOG(2) << "Memory used after deleting local scope: " << memory::memory_usage(place_); VLOG(2) << "-------------------------------------------------------"; } } void Executor::RunPreparedContext( ExecutorPrepareContext* ctx, Scope* scope, std::map& feed_targets, std::map& fetch_targets, bool create_vars, const std::string& feed_holder_name, const std::string& fetch_holder_name) { auto& global_block = ctx->prog_.Block(ctx->block_id_); PADDLE_ENFORCE( has_feed_operators(global_block, feed_targets, feed_holder_name), "Program in ExecutorPrepareContext should has feed_ops."); PADDLE_ENFORCE( has_fetch_operators(global_block, fetch_targets, fetch_holder_name), "Program in the prepared context should has fetch_ops."); // map the data of feed_targets to feed_holder for (auto* op : global_block.AllOps()) { if (op->Type() == kFeedOpType) { std::string feed_target_name = op->Output("Out")[0]; int idx = boost::get(op->GetAttr("col")); SetFeedVariable(scope, *feed_targets[feed_target_name], feed_holder_name, idx); } } RunPreparedContext(ctx, scope, create_vars, create_vars); // obtain the data of fetch_targets from fetch_holder for (auto* op : global_block.AllOps()) { if (op->Type() == kFetchOpType) { std::string fetch_target_name = op->Input("X")[0]; int idx = boost::get(op->GetAttr("col")); *fetch_targets[fetch_target_name] = GetFetchVariable(*scope, fetch_holder_name, idx); } } } } // namespace framework } // namespace paddle