src/ast/variable.h - tint - Git at Google

 // 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 <utility>
 #include <vector>

 #include "src/ast/access.h"
 #include "src/ast/decoration.h"
 #include "src/ast/expression.h"
 #include "src/ast/storage_class.h"

 namespace tint {
 namespace ast {

 // Forward declarations
 class BindingDecoration;
 class GroupDecoration;
 class LocationDecoration;
 class Type;

 /// A Variable statement.
 ///
 /// An instance of this class represents one of three constructs in WGSL: "var"
 /// declaration, "let" 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<workgroup> width : i32;     // no initializer
 ///       var<private> 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 "let" declaration is a name for a typed value.  Examples:
 ///
 ///       let 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 "let",
 ///     the value type of the formal parameter,
 ///     or the store type of the "var".
 //
 /// Setting is_const:
 ///   - "var" gets false
 ///   - "let" gets true
 ///   - formal parameter gets true
 ///
 /// Setting storage class:
 ///   - "var" is StorageClass::kNone when using the
 ///     defaulting syntax for a "var" declared inside a function.
 ///   - "let" is always StorageClass::kNone.
 ///   - formal parameter is always StorageClass::kNone.
 class Variable : public Castable<Variable, Node> {
  public:
   /// BindingPoint holds a group and binding decoration.
   struct BindingPoint {
     /// The `[[group]]` part of the binding point
     GroupDecoration* group = nullptr;
     /// The `[[binding]]` part of the binding point
     BindingDecoration* binding = nullptr;

     /// @returns true if the BindingPoint has a valid group and binding
     /// decoration.
     inline operator bool() const { return group && binding; }
   };

   /// Create a variable
   /// @param program_id the identifier of the program that owns this node
   /// @param source the variable source
   /// @param sym the variable symbol
   /// @param declared_storage_class the declared storage class
   /// @param declared_access the declared access control
   /// @param type the declared variable type
   /// @param is_const true if the variable is const
   /// @param constructor the constructor expression
   /// @param decorations the variable decorations
   Variable(ProgramID program_id,
            const Source& source,
            const Symbol& sym,
            StorageClass declared_storage_class,
            Access declared_access,
            const ast::Type* type,
            bool is_const,
            Expression* constructor,
            DecorationList decorations);
   /// Move constructor
   Variable(Variable&&);

   ~Variable() override;

   /// @returns the variable symbol
   const Symbol& symbol() const { return symbol_; }

   /// @returns the variable type
   ast::Type* type() const { return const_cast<ast::Type*>(type_); }

   /// @returns the declared storage class
   StorageClass declared_storage_class() const {
     return declared_storage_class_;
   }

   /// @returns the declared access control
   Access declared_access() const { return declared_access_; }

   /// @returns the constructor expression or nullptr if none set
   Expression* constructor() const { return constructor_; }
   /// @returns true if the variable has an constructor
   bool has_constructor() const { return constructor_ != nullptr; }

   /// @returns true if this is a constant, false otherwise
   bool is_const() const { return is_const_; }

   /// @returns the decorations attached to this variable
   const DecorationList& decorations() const { return decorations_; }

   /// @returns the binding point information for the variable
   BindingPoint binding_point() const;

   /// Clones this node and all transitive child nodes using the `CloneContext`
   /// `ctx`.
   /// @param ctx the clone context
   /// @return the newly cloned node
   Variable* Clone(CloneContext* ctx) const override;

   /// Writes a representation of the node to the output stream
   /// @param sem the semantic info for the program
   /// @param out the stream to write to
   /// @param indent number of spaces to indent the node when writing
   void to_str(const sem::Info& sem,
               std::ostream& out,
               size_t indent) const override;

  protected:
   /// Output information for this variable.
   /// @param sem the semantic info for the program
   /// @param out the stream to write to
   /// @param indent number of spaces to indent the node when writing
   void info_to_str(const sem::Info& sem,
                    std::ostream& out,
                    size_t indent) const;
   /// Output constructor for this variable.
   /// @param sem the semantic info for the program
   /// @param out the stream to write to
   /// @param indent number of spaces to indent the node when writing
   void constructor_to_str(const sem::Info& sem,
                           std::ostream& out,
                           size_t indent) const;

  private:
   Variable(const Variable&) = delete;

   Symbol const symbol_;
   // The value type if a const or formal paramter, and the store type if a var
   ast::Type const* const type_;
   bool const is_const_;
   Expression* const constructor_;
   DecorationList const decorations_;
   StorageClass const declared_storage_class_;
   Access const declared_access_;
 };

 /// A list of variables
 using VariableList = std::vector<Variable*>;

 }  // namespace ast
 }  // namespace tint

 #endif  // SRC_AST_VARIABLE_H_
	// 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 <utility>
	#include <vector>

	#include "src/ast/access.h"
	#include "src/ast/decoration.h"
	#include "src/ast/expression.h"
	#include "src/ast/storage_class.h"

	namespace tint {
	namespace ast {

	// Forward declarations
	class BindingDecoration;
	class GroupDecoration;
	class LocationDecoration;
	class Type;

	/// A Variable statement.
	///
	/// An instance of this class represents one of three constructs in WGSL: "var"
	/// declaration, "let" 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<workgroup> width : i32; // no initializer
	/// var<private> 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 "let" declaration is a name for a typed value. Examples:
	///
	/// let 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 "let",
	/// the value type of the formal parameter,
	/// or the store type of the "var".
	//
	/// Setting is_const:
	/// - "var" gets false
	/// - "let" gets true
	/// - formal parameter gets true
	///
	/// Setting storage class:
	/// - "var" is StorageClass::kNone when using the
	/// defaulting syntax for a "var" declared inside a function.
	/// - "let" is always StorageClass::kNone.
	/// - formal parameter is always StorageClass::kNone.
	class Variable : public Castable<Variable, Node> {
	public:
	/// BindingPoint holds a group and binding decoration.
	struct BindingPoint {
	/// The `[[group]]` part of the binding point
	GroupDecoration* group = nullptr;
	/// The `[[binding]]` part of the binding point
	BindingDecoration* binding = nullptr;

	/// @returns true if the BindingPoint has a valid group and binding
	/// decoration.
	inline operator bool() const { return group && binding; }
	};

	/// Create a variable
	/// @param program_id the identifier of the program that owns this node
	/// @param source the variable source
	/// @param sym the variable symbol
	/// @param declared_storage_class the declared storage class
	/// @param declared_access the declared access control
	/// @param type the declared variable type
	/// @param is_const true if the variable is const
	/// @param constructor the constructor expression
	/// @param decorations the variable decorations
	Variable(ProgramID program_id,
	const Source& source,
	const Symbol& sym,
	StorageClass declared_storage_class,
	Access declared_access,
	const ast::Type* type,
	bool is_const,
	Expression* constructor,
	DecorationList decorations);
	/// Move constructor
	Variable(Variable&&);

	~Variable() override;

	/// @returns the variable symbol
	const Symbol& symbol() const { return symbol_; }

	/// @returns the variable type
	ast::Type* type() const { return const_cast<ast::Type*>(type_); }

	/// @returns the declared storage class
	StorageClass declared_storage_class() const {
	return declared_storage_class_;
	}

	/// @returns the declared access control
	Access declared_access() const { return declared_access_; }

	/// @returns the constructor expression or nullptr if none set
	Expression* constructor() const { return constructor_; }
	/// @returns true if the variable has an constructor
	bool has_constructor() const { return constructor_ != nullptr; }

	/// @returns true if this is a constant, false otherwise
	bool is_const() const { return is_const_; }

	/// @returns the decorations attached to this variable
	const DecorationList& decorations() const { return decorations_; }

	/// @returns the binding point information for the variable
	BindingPoint binding_point() const;

	/// Clones this node and all transitive child nodes using the `CloneContext`
	/// `ctx`.
	/// @param ctx the clone context
	/// @return the newly cloned node
	Variable* Clone(CloneContext* ctx) const override;

	/// Writes a representation of the node to the output stream
	/// @param sem the semantic info for the program
	/// @param out the stream to write to
	/// @param indent number of spaces to indent the node when writing
	void to_str(const sem::Info& sem,
	std::ostream& out,
	size_t indent) const override;

	protected:
	/// Output information for this variable.
	/// @param sem the semantic info for the program
	/// @param out the stream to write to
	/// @param indent number of spaces to indent the node when writing
	void info_to_str(const sem::Info& sem,
	std::ostream& out,
	size_t indent) const;
	/// Output constructor for this variable.
	/// @param sem the semantic info for the program
	/// @param out the stream to write to
	/// @param indent number of spaces to indent the node when writing
	void constructor_to_str(const sem::Info& sem,
	std::ostream& out,
	size_t indent) const;

	private:
	Variable(const Variable&) = delete;

	Symbol const symbol_;
	// The value type if a const or formal paramter, and the store type if a var
	ast::Type const* const type_;
	bool const is_const_;
	Expression* const constructor_;
	DecorationList const decorations_;
	StorageClass const declared_storage_class_;
	Access const declared_access_;
	};

	/// A list of variables
	using VariableList = std::vector<Variable*>;

	} // namespace ast
	} // namespace tint

	#endif // SRC_AST_VARIABLE_H_