src/tint/lang/wgsl/sem/variable.h - tint - Git at Google

 // Copyright 2021 The Dawn & Tint Authors
 //
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are met:
 //
 // 1. Redistributions of source code must retain the above copyright notice, this
 //    list of conditions and the following disclaimer.
 //
 // 2. Redistributions in binary form must reproduce the above copyright notice,
 //    this list of conditions and the following disclaimer in the documentation
 //    and/or other materials provided with the distribution.
 //
 // 3. Neither the name of the copyright holder nor the names of its
 //    contributors may be used to endorse or promote products derived from
 //    this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 // DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
 // FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 // DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 // SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
 // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
 // OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 #ifndef SRC_TINT_LANG_WGSL_SEM_VARIABLE_H_
 #define SRC_TINT_LANG_WGSL_SEM_VARIABLE_H_

 #include <optional>
 #include <utility>
 #include <vector>

 #include "src/tint/api/common/override_id.h"

 #include "src/tint/api/common/binding_point.h"
 #include "src/tint/lang/core/access.h"
 #include "src/tint/lang/core/address_space.h"
 #include "src/tint/lang/core/parameter_usage.h"
 #include "src/tint/lang/core/type/type.h"
 #include "src/tint/lang/wgsl/ast/parameter.h"
 #include "src/tint/lang/wgsl/sem/value_expression.h"
 #include "src/tint/utils/containers/unique_vector.h"

 // Forward declarations
 namespace tint::ast {
 class IdentifierExpression;
 class Parameter;
 class Variable;
 }  // namespace tint::ast
 namespace tint::sem {
 class CallTarget;
 class VariableUser;
 }  // namespace tint::sem

 namespace tint::sem {

 /// Variable is the base class for local variables, global variables and
 /// parameters.
 class Variable : public Castable<Variable, Node> {
   public:
     /// Constructor
     /// @param declaration the AST declaration node
     explicit Variable(const ast::Variable* declaration);

     /// Destructor
     ~Variable() override;

     /// @returns the AST declaration node
     const ast::Variable* Declaration() const { return declaration_; }

     /// @param type the variable type
     void SetType(const core::type::Type* type) { type_ = type; }

     /// @returns the canonical type for the variable
     const core::type::Type* Type() const { return type_; }

     /// @param stage the evaluation stage for an expression of this variable type
     void SetStage(core::EvaluationStage stage) { stage_ = stage; }

     /// @returns the evaluation stage for an expression of this variable type
     core::EvaluationStage Stage() const { return stage_; }

     /// @param space the variable address space
     void SetAddressSpace(core::AddressSpace space) { address_space_ = space; }

     /// @returns the address space for the variable
     core::AddressSpace AddressSpace() const { return address_space_; }

     /// @param access the variable access control type
     void SetAccess(core::Access access) { access_ = access; }

     /// @returns the access control for the variable
     core::Access Access() const { return access_; }

     /// @param value the constant value for the variable. May be null
     void SetConstantValue(const core::constant::Value* value) { constant_value_ = value; }

     /// @return the constant value of this expression
     const core::constant::Value* ConstantValue() const { return constant_value_; }

     /// Sets the variable initializer expression.
     /// @param initializer the initializer expression to assign to this variable.
     void SetInitializer(const ValueExpression* initializer) { initializer_ = initializer; }

     /// @returns the variable initializer expression, or nullptr if the variable
     /// does not have one.
     const ValueExpression* Initializer() const { return initializer_; }

     /// @returns the expressions that use the variable
     VectorRef<const VariableUser*> Users() const { return users_; }

     /// @param user the user to add
     void AddUser(const VariableUser* user) { users_.Push(user); }

   private:
     const ast::Variable* const declaration_ = nullptr;
     const core::type::Type* type_ = nullptr;
     core::EvaluationStage stage_ = core::EvaluationStage::kRuntime;
     core::AddressSpace address_space_ = core::AddressSpace::kUndefined;
     core::Access access_ = core::Access::kUndefined;
     const core::constant::Value* constant_value_ = nullptr;
     const ValueExpression* initializer_ = nullptr;
     tint::Vector<const VariableUser*, 8> users_;
 };

 /// LocalVariable is a function-scope variable
 class LocalVariable final : public Castable<LocalVariable, Variable> {
   public:
     /// Constructor
     /// @param declaration the AST declaration node
     /// @param statement the statement that declared this local variable
     LocalVariable(const ast::Variable* declaration, const sem::Statement* statement);

     /// Destructor
     ~LocalVariable() override;

     /// @returns the statement that declares this local variable
     const sem::Statement* Statement() const { return statement_; }

     /// Sets the Type, Function or Variable that this local variable shadows
     /// @param shadows the Type, Function or Variable that this variable shadows
     void SetShadows(const CastableBase* shadows) { shadows_ = shadows; }

     /// @returns the Type, Function or Variable that this local variable shadows
     const CastableBase* Shadows() const { return shadows_; }

   private:
     const sem::Statement* const statement_;
     const CastableBase* shadows_ = nullptr;
 };

 /// Attributes that can be applied to global variables
 struct GlobalVariableAttributes {
     /// the pipeline constant ID associated with the variable
     std::optional<tint::OverrideId> override_id;
     /// the resource binding point for the variable, if set.
     std::optional<tint::BindingPoint> binding_point;
     /// The `location` attribute value for the variable, if set
     /// @note a GlobalVariable generally doesn't have a `location` in WGSL, as it isn't allowed by
     /// the spec. The location maybe attached by transforms such as CanonicalizeEntryPointIO.
     std::optional<uint32_t> location;
     /// The `index` attribute value for the variable, if set
     /// @note a GlobalVariable generally doesn't have a `index` in WGSL, as it isn't allowed by
     /// the spec. The location maybe attached by transforms such as CanonicalizeEntryPointIO.
     std::optional<uint32_t> index;
     /// The `color` attribute value for the variable, if set
     /// @note a GlobalVariable generally doesn't have a `color` in WGSL, as it isn't allowed by
     /// the spec. The location maybe attached by transforms such as CanonicalizeEntryPointIO.
     std::optional<uint32_t> color;
 };

 /// GlobalVariable is a module-scope variable
 class GlobalVariable final : public Castable<GlobalVariable, Variable> {
   public:
     /// Constructor
     /// @param declaration the AST declaration node
     explicit GlobalVariable(const ast::Variable* declaration);

     /// Destructor
     ~GlobalVariable() override;

     /// Records that this variable (transitively) references the given override variable.
     /// @param var the module-scope override variable
     void AddTransitivelyReferencedOverride(const GlobalVariable* var);

     /// @returns all transitively referenced override variables
     VectorRef<const GlobalVariable*> TransitivelyReferencedOverrides() const {
         return transitively_referenced_overrides_;
     }

     /// @return the mutable attributes for the variable
     GlobalVariableAttributes& Attributes() { return attributes_; }

     /// @return the immutable attributes for the variable
     const GlobalVariableAttributes& Attributes() const { return attributes_; }

   private:
     tint::OverrideId override_id_;
     UniqueVector<const GlobalVariable*, 4> transitively_referenced_overrides_;
     GlobalVariableAttributes attributes_;
 };

 /// Attributes that can be applied to parameters
 struct ParameterAttributes {
     /// the resource binding point for the variable, if set.
     /// @note a Parameter generally doesn't have a `group` or `binding` attribute in WGSL, as it
     /// isn't allowed by the spec. The binding point maybe attached by transforms such as
     /// CanonicalizeEntryPointIO.
     std::optional<tint::BindingPoint> binding_point;
     /// The `location` attribute value for the variable, if set
     std::optional<uint32_t> location;
     /// The `index` attribute value for the variable, if set
     std::optional<uint32_t> index;
     /// The `color` attribute value for the variable, if set
     std::optional<uint32_t> color;
 };

 /// Parameter is a function parameter
 class Parameter final : public Castable<Parameter, Variable> {
   public:
     /// Constructor
     /// @param declaration the AST declaration node
     /// @param index the index of the parameter in the function
     /// @param type the variable type
     /// @param usage the parameter usage
     Parameter(const ast::Parameter* declaration,
               uint32_t index = 0,
               const core::type::Type* type = nullptr,
               core::ParameterUsage usage = core::ParameterUsage::kNone);

     /// Destructor
     ~Parameter() override;

     /// @returns the AST declaration node
     const ast::Parameter* Declaration() const {
         return static_cast<const ast::Parameter*>(Variable::Declaration());
     }

     /// @return the index of the parameter in the function
     uint32_t Index() const { return index_; }

     /// @param usage the semantic usage for the parameter
     void SetUsage(core::ParameterUsage usage) { usage_ = usage; }

     /// @returns the semantic usage for the parameter
     core::ParameterUsage Usage() const { return usage_; }

     /// @param owner the CallTarget owner of this parameter
     void SetOwner(const CallTarget* owner) { owner_ = owner; }

     /// @returns the CallTarget owner of this parameter
     const CallTarget* Owner() const { return owner_; }

     /// Sets the Type, Function or Variable that this local variable shadows
     /// @param shadows the Type, Function or Variable that this variable shadows
     void SetShadows(const CastableBase* shadows) { shadows_ = shadows; }

     /// @returns the Type, Function or Variable that this local variable shadows
     const CastableBase* Shadows() const { return shadows_; }

     /// @return the mutable attributes for the parameter
     ParameterAttributes& Attributes() { return attributes_; }

     /// @return the immutable attributes for the parameter
     const ParameterAttributes& Attributes() const { return attributes_; }

   private:
     const uint32_t index_ = 0;
     core::ParameterUsage usage_ = core::ParameterUsage::kNone;
     CallTarget const* owner_ = nullptr;
     const CastableBase* shadows_ = nullptr;
     ParameterAttributes attributes_;
 };

 /// VariableUser holds the semantic information for an identifier expression
 /// node that resolves to a variable.
 class VariableUser final : public Castable<VariableUser, ValueExpression> {
   public:
     /// Constructor
     /// @param declaration the AST identifier node
     /// @param stage the evaluation stage for an expression of this variable type
     /// @param statement the statement that owns this expression
     /// @param constant the constant value of the expression. May be null
     /// @param variable the semantic variable
     VariableUser(const ast::IdentifierExpression* declaration,
                  core::EvaluationStage stage,
                  Statement* statement,
                  const core::constant::Value* constant,
                  sem::Variable* variable);
     ~VariableUser() override;

     /// @returns the AST node
     const ast::IdentifierExpression* Declaration() const;

     /// @returns the variable that this expression refers to
     const sem::Variable* Variable() const { return variable_; }

   private:
     const sem::Variable* const variable_;
 };

 /// A pair of sem::Variables. Can be hashed.
 typedef std::pair<const Variable*, const Variable*> VariablePair;

 }  // namespace tint::sem

 namespace std {

 /// Custom std::hash specialization for VariablePair
 template <>
 class hash<tint::sem::VariablePair> {
   public:
     /// @param i the variable pair to create a hash for
     /// @return the hash value
     inline std::size_t operator()(const tint::sem::VariablePair& i) const {
         return Hash(i.first, i.second);
     }
 };

 }  // namespace std

 #endif  // SRC_TINT_LANG_WGSL_SEM_VARIABLE_H_
	// Copyright 2021 The Dawn & Tint Authors
	//
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are met:
	//
	// 1. Redistributions of source code must retain the above copyright notice, this
	// list of conditions and the following disclaimer.
	//
	// 2. Redistributions in binary form must reproduce the above copyright notice,
	// this list of conditions and the following disclaimer in the documentation
	// and/or other materials provided with the distribution.
	//
	// 3. Neither the name of the copyright holder nor the names of its
	// contributors may be used to endorse or promote products derived from
	// this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
	// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
	// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
	// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
	// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
	// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
	// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	#ifndef SRC_TINT_LANG_WGSL_SEM_VARIABLE_H_
	#define SRC_TINT_LANG_WGSL_SEM_VARIABLE_H_

	#include <optional>
	#include <utility>
	#include <vector>

	#include "src/tint/api/common/override_id.h"

	#include "src/tint/api/common/binding_point.h"
	#include "src/tint/lang/core/access.h"
	#include "src/tint/lang/core/address_space.h"
	#include "src/tint/lang/core/parameter_usage.h"
	#include "src/tint/lang/core/type/type.h"
	#include "src/tint/lang/wgsl/ast/parameter.h"
	#include "src/tint/lang/wgsl/sem/value_expression.h"
	#include "src/tint/utils/containers/unique_vector.h"

	// Forward declarations
	namespace tint::ast {
	class IdentifierExpression;
	class Parameter;
	class Variable;
	} // namespace tint::ast
	namespace tint::sem {
	class CallTarget;
	class VariableUser;
	} // namespace tint::sem

	namespace tint::sem {

	/// Variable is the base class for local variables, global variables and
	/// parameters.
	class Variable : public Castable<Variable, Node> {
	public:
	/// Constructor
	/// @param declaration the AST declaration node
	explicit Variable(const ast::Variable* declaration);

	/// Destructor
	~Variable() override;

	/// @returns the AST declaration node
	const ast::Variable* Declaration() const { return declaration_; }

	/// @param type the variable type
	void SetType(const core::type::Type* type) { type_ = type; }

	/// @returns the canonical type for the variable
	const core::type::Type* Type() const { return type_; }

	/// @param stage the evaluation stage for an expression of this variable type
	void SetStage(core::EvaluationStage stage) { stage_ = stage; }

	/// @returns the evaluation stage for an expression of this variable type
	core::EvaluationStage Stage() const { return stage_; }

	/// @param space the variable address space
	void SetAddressSpace(core::AddressSpace space) { address_space_ = space; }

	/// @returns the address space for the variable
	core::AddressSpace AddressSpace() const { return address_space_; }

	/// @param access the variable access control type
	void SetAccess(core::Access access) { access_ = access; }

	/// @returns the access control for the variable
	core::Access Access() const { return access_; }

	/// @param value the constant value for the variable. May be null
	void SetConstantValue(const core::constant::Value* value) { constant_value_ = value; }

	/// @return the constant value of this expression
	const core::constant::Value* ConstantValue() const { return constant_value_; }

	/// Sets the variable initializer expression.
	/// @param initializer the initializer expression to assign to this variable.
	void SetInitializer(const ValueExpression* initializer) { initializer_ = initializer; }

	/// @returns the variable initializer expression, or nullptr if the variable
	/// does not have one.
	const ValueExpression* Initializer() const { return initializer_; }

	/// @returns the expressions that use the variable
	VectorRef<const VariableUser*> Users() const { return users_; }

	/// @param user the user to add
	void AddUser(const VariableUser* user) { users_.Push(user); }

	private:
	const ast::Variable* const declaration_ = nullptr;
	const core::type::Type* type_ = nullptr;
	core::EvaluationStage stage_ = core::EvaluationStage::kRuntime;
	core::AddressSpace address_space_ = core::AddressSpace::kUndefined;
	core::Access access_ = core::Access::kUndefined;
	const core::constant::Value* constant_value_ = nullptr;
	const ValueExpression* initializer_ = nullptr;
	tint::Vector<const VariableUser*, 8> users_;
	};

	/// LocalVariable is a function-scope variable
	class LocalVariable final : public Castable<LocalVariable, Variable> {
	public:
	/// Constructor
	/// @param declaration the AST declaration node
	/// @param statement the statement that declared this local variable
	LocalVariable(const ast::Variable* declaration, const sem::Statement* statement);

	/// Destructor
	~LocalVariable() override;

	/// @returns the statement that declares this local variable
	const sem::Statement* Statement() const { return statement_; }

	/// Sets the Type, Function or Variable that this local variable shadows
	/// @param shadows the Type, Function or Variable that this variable shadows
	void SetShadows(const CastableBase* shadows) { shadows_ = shadows; }

	/// @returns the Type, Function or Variable that this local variable shadows
	const CastableBase* Shadows() const { return shadows_; }

	private:
	const sem::Statement* const statement_;
	const CastableBase* shadows_ = nullptr;
	};

	/// Attributes that can be applied to global variables
	struct GlobalVariableAttributes {
	/// the pipeline constant ID associated with the variable
	std::optional<tint::OverrideId> override_id;
	/// the resource binding point for the variable, if set.
	std::optional<tint::BindingPoint> binding_point;
	/// The `location` attribute value for the variable, if set
	/// @note a GlobalVariable generally doesn't have a `location` in WGSL, as it isn't allowed by
	/// the spec. The location maybe attached by transforms such as CanonicalizeEntryPointIO.
	std::optional<uint32_t> location;
	/// The `index` attribute value for the variable, if set
	/// @note a GlobalVariable generally doesn't have a `index` in WGSL, as it isn't allowed by
	/// the spec. The location maybe attached by transforms such as CanonicalizeEntryPointIO.
	std::optional<uint32_t> index;
	/// The `color` attribute value for the variable, if set
	/// @note a GlobalVariable generally doesn't have a `color` in WGSL, as it isn't allowed by
	/// the spec. The location maybe attached by transforms such as CanonicalizeEntryPointIO.
	std::optional<uint32_t> color;
	};

	/// GlobalVariable is a module-scope variable
	class GlobalVariable final : public Castable<GlobalVariable, Variable> {
	public:
	/// Constructor
	/// @param declaration the AST declaration node
	explicit GlobalVariable(const ast::Variable* declaration);

	/// Destructor
	~GlobalVariable() override;

	/// Records that this variable (transitively) references the given override variable.
	/// @param var the module-scope override variable
	void AddTransitivelyReferencedOverride(const GlobalVariable* var);

	/// @returns all transitively referenced override variables
	VectorRef<const GlobalVariable*> TransitivelyReferencedOverrides() const {
	return transitively_referenced_overrides_;
	}

	/// @return the mutable attributes for the variable
	GlobalVariableAttributes& Attributes() { return attributes_; }

	/// @return the immutable attributes for the variable
	const GlobalVariableAttributes& Attributes() const { return attributes_; }

	private:
	tint::OverrideId override_id_;
	UniqueVector<const GlobalVariable*, 4> transitively_referenced_overrides_;
	GlobalVariableAttributes attributes_;
	};

	/// Attributes that can be applied to parameters
	struct ParameterAttributes {
	/// the resource binding point for the variable, if set.
	/// @note a Parameter generally doesn't have a `group` or `binding` attribute in WGSL, as it
	/// isn't allowed by the spec. The binding point maybe attached by transforms such as
	/// CanonicalizeEntryPointIO.
	std::optional<tint::BindingPoint> binding_point;
	/// The `location` attribute value for the variable, if set
	std::optional<uint32_t> location;
	/// The `index` attribute value for the variable, if set
	std::optional<uint32_t> index;
	/// The `color` attribute value for the variable, if set
	std::optional<uint32_t> color;
	};

	/// Parameter is a function parameter
	class Parameter final : public Castable<Parameter, Variable> {
	public:
	/// Constructor
	/// @param declaration the AST declaration node
	/// @param index the index of the parameter in the function
	/// @param type the variable type
	/// @param usage the parameter usage
	Parameter(const ast::Parameter* declaration,
	uint32_t index = 0,
	const core::type::Type* type = nullptr,
	core::ParameterUsage usage = core::ParameterUsage::kNone);

	/// Destructor
	~Parameter() override;

	/// @returns the AST declaration node
	const ast::Parameter* Declaration() const {
	return static_cast<const ast::Parameter*>(Variable::Declaration());
	}

	/// @return the index of the parameter in the function
	uint32_t Index() const { return index_; }

	/// @param usage the semantic usage for the parameter
	void SetUsage(core::ParameterUsage usage) { usage_ = usage; }

	/// @returns the semantic usage for the parameter
	core::ParameterUsage Usage() const { return usage_; }

	/// @param owner the CallTarget owner of this parameter
	void SetOwner(const CallTarget* owner) { owner_ = owner; }

	/// @returns the CallTarget owner of this parameter
	const CallTarget* Owner() const { return owner_; }

	/// Sets the Type, Function or Variable that this local variable shadows
	/// @param shadows the Type, Function or Variable that this variable shadows
	void SetShadows(const CastableBase* shadows) { shadows_ = shadows; }

	/// @returns the Type, Function or Variable that this local variable shadows
	const CastableBase* Shadows() const { return shadows_; }

	/// @return the mutable attributes for the parameter
	ParameterAttributes& Attributes() { return attributes_; }

	/// @return the immutable attributes for the parameter
	const ParameterAttributes& Attributes() const { return attributes_; }

	private:
	const uint32_t index_ = 0;
	core::ParameterUsage usage_ = core::ParameterUsage::kNone;
	CallTarget const* owner_ = nullptr;
	const CastableBase* shadows_ = nullptr;
	ParameterAttributes attributes_;
	};

	/// VariableUser holds the semantic information for an identifier expression
	/// node that resolves to a variable.
	class VariableUser final : public Castable<VariableUser, ValueExpression> {
	public:
	/// Constructor
	/// @param declaration the AST identifier node
	/// @param stage the evaluation stage for an expression of this variable type
	/// @param statement the statement that owns this expression
	/// @param constant the constant value of the expression. May be null
	/// @param variable the semantic variable
	VariableUser(const ast::IdentifierExpression* declaration,
	core::EvaluationStage stage,
	Statement* statement,
	const core::constant::Value* constant,
	sem::Variable* variable);
	~VariableUser() override;

	/// @returns the AST node
	const ast::IdentifierExpression* Declaration() const;

	/// @returns the variable that this expression refers to
	const sem::Variable* Variable() const { return variable_; }

	private:
	const sem::Variable* const variable_;
	};

	/// A pair of sem::Variables. Can be hashed.
	typedef std::pair<const Variable, const Variable> VariablePair;

	} // namespace tint::sem

	namespace std {

	/// Custom std::hash specialization for VariablePair
	template <>
	class hash<tint::sem::VariablePair> {
	public:
	/// @param i the variable pair to create a hash for
	/// @return the hash value
	inline std::size_t operator()(const tint::sem::VariablePair& i) const {
	return Hash(i.first, i.second);
	}
	};

	} // namespace std

	#endif // SRC_TINT_LANG_WGSL_SEM_VARIABLE_H_