// Copyright 2020 The Tint Authors. // // 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 SRC_AST_VARIABLE_H_ #define SRC_AST_VARIABLE_H_ #include #include #include #include #include #include "src/ast/expression.h" #include "src/ast/node.h" #include "src/ast/storage_class.h" #include "src/ast/type/type.h" namespace tint { namespace ast { class DecoratedVariable; /// A Variable statement. /// /// An instance of this class represents one of three constructs in WGSL: "var" /// declaration, "const" declaration, or formal parameter to a function. /// /// 1. A "var" declaration is a name for typed storage. Examples: /// /// // Declared outside a function, i.e. at module scope, requires /// // a storage class. /// var width : i32; // no initializer /// var height : i32 = 3; // with initializer /// /// // A variable declared inside a function doesn't take a storage class, /// // and maps to SPIR-V Function storage. /// var computed_depth : i32; /// var area : i32 = compute_area(width, height); /// /// 2. A "const" declaration is a name for a typed value. Examples: /// /// const twice_depth : i32 = width + width; // Must have initializer /// /// 3. A formal parameter to a function is a name for a typed value to /// be passed into a function. Example: /// /// fn twice(a: i32) -> i32 { // "a:i32" is the formal parameter /// return a + a; /// } /// /// From the WGSL draft, about "var":: /// /// A variable is a named reference to storage that can contain a value of a /// particular type. /// /// Two types are associated with a variable: its store type (the type of /// value that may be placed in the referenced storage) and its reference /// type (the type of the variable itself). If a variable has store type T /// and storage class S, then its reference type is pointer-to-T-in-S. /// /// This class uses the term "type" to refer to: /// the value type of a "const", /// the value type of the formal parameter, /// or the store type of the "var". /// /// The storage class for a "var" is StorageClass::kNone when using the /// defaulting syntax for a "var" declared inside a function. /// The storage class for a "const" is always StorageClass::kNone. /// The storage class for a formal parameter is always StorageClass::kNone. class Variable : public Node { public: /// Create a new empty variable statement Variable(); /// Create a variable /// @param name the variables name /// @param sc the variable storage class /// @param type the value type Variable(const std::string& name, StorageClass sc, type::Type* type); /// Create a variable /// @param source the variable source /// @param name the variables name /// @param sc the variable storage class /// @param type the value type Variable(const Source& source, const std::string& name, StorageClass sc, type::Type* type); /// Move constructor Variable(Variable&&); ~Variable() override; /// Sets the variable name /// @param name the name to set void set_name(const std::string& name) { name_ = name; } /// @returns the variable name const std::string& name() const { return name_; } /// Sets the value type if a const or formal parameter, or the /// store type if a var. /// @param type the type void set_type(type::Type* type) { type_ = type; } /// @returns the variable's type. type::Type* type() const { return type_; } /// Sets the storage class /// @param sc the storage class void set_storage_class(StorageClass sc) { storage_class_ = sc; } /// @returns the storage class StorageClass storage_class() const { return storage_class_; } /// Sets the constructor /// @param expr the constructor expression void set_constructor(std::unique_ptr expr) { constructor_ = std::move(expr); } /// @returns the constructor expression or nullptr if none set Expression* constructor() const { return constructor_.get(); } /// @returns true if the variable has an constructor bool has_constructor() const { return constructor_ != nullptr; } /// Sets if the variable is constant /// @param val the value to be set void set_is_const(bool val) { is_const_ = val; } /// @returns true if this is a constant, false otherwise bool is_const() const { return is_const_; } /// @returns true if this is a decorated variable virtual bool IsDecorated() const; /// @returns the expression as a decorated variable DecoratedVariable* AsDecorated(); /// @returns true if the name and path are both present bool IsValid() const override; /// Writes a representation of the node to the output stream /// @param out the stream to write to /// @param indent number of spaces to indent the node when writing void to_str(std::ostream& out, size_t indent) const override; protected: /// Output information for this variable. /// @param out the stream to write to /// @param indent number of spaces to indent the node when writing void info_to_str(std::ostream& out, size_t indent) const; /// Output constructor for this variable. /// @param out the stream to write to /// @param indent number of spaces to indent the node when writing void constructor_to_str(std::ostream& out, size_t indent) const; private: Variable(const Variable&) = delete; bool is_const_ = false; std::string name_; StorageClass storage_class_ = StorageClass::kNone; // The value type if a const or formal paramter, and the store type if a var type::Type* type_ = nullptr; std::unique_ptr constructor_; }; /// A list of unique variables using VariableList = std::vector>; } // namespace ast } // namespace tint #endif // SRC_AST_VARIABLE_H_