/* 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/scope.h" #include "glog/logging.h" #include "paddle/fluid/framework/threadpool.h" DECLARE_bool(benchmark); PADDLE_DEFINE_EXPORTED_bool( eager_delete_scope, true, "Delete local scope eagerly. It will reduce GPU memory usage but " "slow down the destruction of variables.(around 1% performance harm)"); #define SCOPE_KIDS_READER_LOCK phi::AutoRDLock auto_lock(&kids_lock_); #define SCOPE_KIDS_WRITER_LOCK phi::AutoWRLock auto_lock(&kids_lock_); #define SCOPE_VARS_READER_LOCK phi::AutoRDLock auto_lock(&vars_lock_); #define SCOPE_VARS_WRITER_LOCK phi::AutoWRLock auto_lock(&vars_lock_); namespace paddle { namespace framework { Scope::~Scope() { DropKids(); } Scope& Scope::NewScope() const { Scope* child = new Scope(this); { SCOPE_KIDS_WRITER_LOCK kids_.push_back(child); } return *child; } std::unique_ptr Scope::NewTmpScope() const { return std::unique_ptr(new Scope(this)); } Variable* Scope::Var(const std::string& name) { // NOTE(xiongkun03): add {} here to unlock. With {}, scope // will do callback after unlock. Variable* ret = nullptr; { SCOPE_VARS_WRITER_LOCK ret = VarInternal(name); } return ret; } Variable* Scope::Var(std::string* name) { Variable* ret = nullptr; std::string new_name; { SCOPE_VARS_WRITER_LOCK new_name = std::to_string(reinterpret_cast(this)) + "." + std::to_string(vars_.size()); if (name != nullptr) { *name = new_name; } ret = VarInternal(new_name); } return ret; } Variable* Scope::FindVar(const std::string& name) const { SCOPE_VARS_READER_LOCK return FindVarInternal(name); } Variable* Scope::GetVar(const std::string& name) const { auto* var = FindVar(name); PADDLE_ENFORCE_NOT_NULL( var, platform::errors::NotFound("Cannot find %s in scope.", name)); return var; } Variable* Scope::FindLocalVar(const std::string& name) const { SCOPE_VARS_READER_LOCK return FindVarLocally(name); } const Scope* Scope::FindScope(const Variable* var) const { SCOPE_VARS_READER_LOCK return FindScopeInternal(var); } const Scope* Scope::FindScope(const std::string& name) const { SCOPE_VARS_READER_LOCK return FindScopeInternal(name); } void Scope::DropKids() { { SCOPE_KIDS_WRITER_LOCK for (Scope* s : kids_) { delete s; s = nullptr; } kids_.clear(); } } bool Scope::HasKid(const Scope* scope) const { SCOPE_KIDS_READER_LOCK auto it = std::find(this->kids_.begin(), this->kids_.end(), scope); return it != this->kids_.end(); } std::vector Scope::LocalVarNames() const { std::vector known_vars; { SCOPE_VARS_READER_LOCK known_vars.reserve(this->vars_.size()); for (auto& p : vars_) { known_vars.emplace_back(p.first); } } return known_vars; } std::vector Scope::LocalVars() { std::vector known_vars; { SCOPE_VARS_READER_LOCK known_vars.reserve(this->vars_.size()); for (auto& p : vars_) { known_vars.emplace_back(p.second.get()); } } return known_vars; } void Scope::DeleteScope(Scope* scope) const { { SCOPE_KIDS_WRITER_LOCK auto it = std::find(this->kids_.begin(), this->kids_.end(), scope); PADDLE_ENFORCE_NE(it, this->kids_.end(), platform::errors::NotFound( "%p is not found in %p as kid scope", scope, this)); this->kids_.erase(it); // When making memory benchmark on Fluid, we have to delete scope sync. if (FLAGS_benchmark || FLAGS_eager_delete_scope) { delete scope; } else { Async([scope] { delete scope; }); } } } void Scope::EraseVars(const std::vector& var_names) { { std::set var_set(var_names.begin(), var_names.end()); SCOPE_VARS_WRITER_LOCK for (auto it = vars_.begin(); it != vars_.end();) { if (var_set.find(it->first) != var_set.end()) { it = vars_.erase(it); } else { ++it; } } } } void Scope::Rename(const std::string& origin_name, const std::string& new_name) const { { SCOPE_VARS_WRITER_LOCK RenameInternal(origin_name, new_name); } } std::string Scope::Rename(const std::string& origin_name) const { auto new_name = string::Sprintf("%p.%d", this, vars_.size()); { SCOPE_VARS_WRITER_LOCK RenameInternal(origin_name, new_name); } return new_name; } Variable* Scope::VarInternal(const std::string& name) { auto* v = FindVarLocally(name); if (v != nullptr) return v; v = new Variable(); vars_.emplace(name, std::unique_ptr(v)); VLOG(3) << "Create variable " << name; return v; } const Scope* Scope::FindScopeInternal(const Variable* var) const { for (auto& kv : vars_) { if (kv.second.get() == var) { return this; } } return (parent_ == nullptr) ? nullptr : parent_->FindScope(var); } const Scope* Scope::FindScopeInternal(const std::string& name) const { if (vars_.find(name) != vars_.end()) { return this; } return (parent_ == nullptr) ? nullptr : parent_->FindScope(name); } void Scope::RenameInternal(const std::string& origin_name, const std::string& new_name) const { auto origin_it = vars_.find(origin_name); PADDLE_ENFORCE_NE( origin_it, vars_.end(), platform::errors::NotFound( "Original variable with name %s is not found in the scope.", origin_name)); auto new_it = vars_.find(new_name); PADDLE_ENFORCE_EQ( new_it, vars_.end(), platform::errors::AlreadyExists( "The variable with name %s already exists in the scope.", new_name)); vars_[new_name].reset(origin_it->second.release()); vars_.erase(origin_it); } Variable* Scope::FindVarInternal(const std::string& name) const { auto var = FindVarLocally(name); if (var != nullptr) { return var; } return (parent_ == nullptr) ? nullptr : parent_->FindVar(name); } Variable* Scope::FindVarLocally(const std::string& name) const { auto it = vars_.find(name); if (it != vars_.end()) { return it->second.get(); } return nullptr; } void Scope::EraseVarsExcept(const std::unordered_set& vars) { SCOPE_VARS_WRITER_LOCK for (auto iter = vars_.begin(); iter != vars_.end();) { if (vars.count(iter->second.get()) != 0) { ++iter; } else { vars_.erase(iter++); } } } std::string GenScopeTreeDebugInfo(Scope* root) { std::stringstream os; if (!root) return ""; // level traversal std::queue queue; queue.push(root); std::vector scopes; while (!queue.empty()) { auto* end = queue.back(); Scope* q = nullptr; while (q != end) { q = queue.front(); queue.pop(); os << q << " "; scopes.push_back(q); for (auto* c : q->kids()) { queue.push(c); } } // end of a level os << "\n------------------------------------------\n"; } os << "\nDetails:\n\n"; for (Scope* q : scopes) { os << "====\n"; os << q << ":\n"; for (auto& var : q->LocalVarNames()) { os << " - " << var << "\n"; } } return os.str(); } } // namespace framework } // namespace paddle