Design of Scope in Paddle

Overview

Scope is an important concept in programming languages, which defines a program region that a set of bindings between names and entities applies. In a specific scope, a valid name is uniquely associated with an entity, such as a variable. And in another scope, this name may refer to other entity or nothing at all. It clearly restricts the visibility and validity of names in a program. Hence Scope is introduced to PaddlePaddle to manage variables in context. But different from the original abstract concept, Scope now becomes an object with two important attributes:

  • Scope is an association of a name to variable.
  • Variables in a parent scope can be retrieved from local scope.

A detailed explanation of these two attributes goes as following.

Scope is an association of a name to variable.

Scope is an association of a name to variable. All variables belong to Scope. You need to specify a scope to run a Net, i.e., net.Run(&scope). One net can run in different scopes and update different variable in the scope.

  1. Scope only contains a map of a name to variable.

    All parameters, data, states in a Net should be variables and stored inside a scope. Each op should get inputs and outputs to do computation from a scope, such as data buffer, state(momentum) etc.

  2. Variable can only be created by Scope and a variable can only be got from Scope. User cannot create or get a variable outside a scope. This is a constraints of our framework, and will keep our framework simple and clear.

  3. Scope only contains methods that are used to Create and Get Variables. Scope do not contain Operators and have no information to run them. Net is designed to drive the computation and Scope only contains a map of variables. There is no computation logic inside a Scope. Scope just handles the lifetime management of variables.

    • Create is used to create a Variable by its name and add the mapping relation.
    • Get is used to find a Variable by name.
  4. Every variable only belongs to one certain Scope.

    Variable can not belong to many scopes. If you want to use variables from parent scope, you can use parent scope.

  5. Scope should destruct all Variables inside it when itself is destructed. User can never store Variable pointer somewhere else.

    Because Variable can only be got from Scope. When destroying Scope, we also need to destroy all the Variables in it. If user store Variable pointer to private data member or some global variable, the pointer will be a invalid pointer when associated Scope is destroyed.

class Scope {
 public:
  Variable* CreateVariable(const std::string& name);
  const Variable* GetVariable(const std::string& name) const;

 private:
    std::unordered_map<std::string, std::unique_ptr<Variable>> vars_;
};

Parent scope and local scope

Just like scope in programming languages, Scope in the neural network can also be a local scope. There are two attributes about local scope.

  1. We can create local variables in a local scope. When that local scope are destroyed, all local variables should also be destroyed.
  2. Variables in a parent scope can be retrieved from local scopes of that parent scope, i.e., when user get a variable from a scope, it will try to search this variable in current scope. If there is no such variable in the local scope, scope will keep searching from its parent, until the variable is found or there is no parent.
class Scope {
 public:
  Scope(const std::shared_ptr<Scope>& scope): parent_(scope) {}

  Variable* GetVariable(const std::string& name) const {
    auto it = vars_.find(name);
    if (it != vars_.end()) {
      return it->second.get();
    } else if (parent_ != nullptr) {
      return parent_->GetVariable(name);
    } else {
      return nullptr;
    }
  }

 private:
  std::shared_ptr<Scope> parent_ {nullptr};
};

In Scope class, there is a private data member called parent_. parent_ is a smart pointer to its parent scope. When user Get a variable by its name, the name will be searched inside the current scope. If the variable cannot be found locally and parent scope is not a nullptr, the variable will be searched inside that parent scope. parent_ pointer’s default value is nullptr. It means that the scope is a global scope when parent_ is nullptr.

A local scope is very useful when we implement Recurrent Neural Network. Each timestep of an RNN should be a Net. Each Net of timestep (StepNet for short) should use an independent local scope. Just like variables in a while loop is inside a local scope in programming languages. By using a single StepNet and changing local scope, we can implement an RNN easily.

Interface Design

class Variable {
 private:
  Variable() = default;
  friend class Scope;
};

class Scope {
 private:
  Scope(const std::shared_ptr<Scope>& parent = nullptr);

 public:
  static std::shared_ptr<Scope> Create(const std::shared_ptr<Scope>& parent = nullptr);

  // return nullptr if not found.
  Variable* GetVariable(const std::string& name) const;

  // return if already contains same name variable.
  Variable* CreateVariable(const std::string& name);

 private:
  std::shared_ptr<Scope> parent_;
  std::unordered_map<std::string, std::unique_ptr<Variable>> vars_;
};

Only scope can create a variable

To ensure only scope can create a variable, we should mark Variable‘s constructor as a private member function, and Scope is a friend class of Variable. And then only CreateVariable can construct Variable.

When scope destroyed, all variables inside this scope should be destroyed together

The scope hold unique pointers for all variables. User can GetVariable from scope, but he should not hold this pointer as a member variable. Because when scope is destroyed, all variables inside this scope will be destroyed together.

Sharing a parent scope

Local scope contains a parent_ pointer. It is a linked-list for scopes. Using a shared_ptr because when a local scope is using, its parents cannot be destroyed.

Also, as the parent scope is a shared_ptr, we can only Create() a scope shared pointer. We cannot construct a scope variable, because it cannot be passed to other scope as parent pointer.

Orthogonal interface

GetVariable will return nullptr when name is not found. It can be used as Contains method. CreateVariable will return a Error when there is a name conflict locally. Combine GetVariable and CreateVariable, we can implement CreateOrGetVariable easily.