src/ast/binary_expression.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_BINARY_EXPRESSION_H_
 #define SRC_AST_BINARY_EXPRESSION_H_

 #include <memory>
 #include <utility>

 #include "src/ast/expression.h"
 #include "src/ast/literal.h"

 namespace tint {
 namespace ast {

 /// The operator type
 enum class BinaryOp {
   kNone = 0,
   kAnd,
   kOr,
   kXor,
   kLogicalAnd,
   kLogicalOr,
   kEqual,
   kNotEqual,
   kLessThan,
   kGreaterThan,
   kLessThanEqual,
   kGreaterThanEqual,
   kShiftLeft,
   kShiftRight,
   kAdd,
   kSubtract,
   kMultiply,
   kDivide,
   kModulo,
 };

 /// An binary expression
 class BinaryExpression : public Expression {
  public:
   /// Constructor
   BinaryExpression();
   /// Constructor
   /// @param op the operation type
   /// @param lhs the left side of the expression
   /// @param rhs the right side of the expression
   BinaryExpression(BinaryOp op,
                    std::unique_ptr<Expression> lhs,
                    std::unique_ptr<Expression> rhs);
   /// Constructor
   /// @param source the binary expression source
   /// @param op the operation type
   /// @param lhs the left side of the expression
   /// @param rhs the right side of the expression
   BinaryExpression(const Source& source,
                    BinaryOp op,
                    std::unique_ptr<Expression> lhs,
                    std::unique_ptr<Expression> rhs);
   /// Move constructor
   BinaryExpression(BinaryExpression&&);
   ~BinaryExpression() override;

   /// Sets the binary op type
   /// @param op the binary op type
   void set_op(BinaryOp op) { op_ = op; }
   /// @returns the binary op type
   BinaryOp op() const { return op_; }

   /// @returns true if the op is and
   bool IsAnd() const { return op_ == BinaryOp::kAnd; }
   /// @returns true if the op is or
   bool IsOr() const { return op_ == BinaryOp::kOr; }
   /// @returns true if the op is xor
   bool IsXor() const { return op_ == BinaryOp::kXor; }
   /// @returns true if the op is logical and
   bool IsLogicalAnd() const { return op_ == BinaryOp::kLogicalAnd; }
   /// @returns true if the op is logical or
   bool IsLogicalOr() const { return op_ == BinaryOp::kLogicalOr; }
   /// @returns true if the op is equal
   bool IsEqual() const { return op_ == BinaryOp::kEqual; }
   /// @returns true if the op is not equal
   bool IsNotEqual() const { return op_ == BinaryOp::kNotEqual; }
   /// @returns true if the op is less than
   bool IsLessThan() const { return op_ == BinaryOp::kLessThan; }
   /// @returns true if the op is greater than
   bool IsGreaterThan() const { return op_ == BinaryOp::kGreaterThan; }
   /// @returns true if the op is less than equal
   bool IsLessThanEqual() const { return op_ == BinaryOp::kLessThanEqual; }
   /// @returns true if the op is greater than equal
   bool IsGreaterThanEqual() const { return op_ == BinaryOp::kGreaterThanEqual; }
   /// @returns true if the op is shift left
   bool IsShiftLeft() const { return op_ == BinaryOp::kShiftLeft; }
   /// @returns true if the op is shift right
   bool IsShiftRight() const { return op_ == BinaryOp::kShiftRight; }
   /// @returns true if the op is add
   bool IsAdd() const { return op_ == BinaryOp::kAdd; }
   /// @returns true if the op is subtract
   bool IsSubtract() const { return op_ == BinaryOp::kSubtract; }
   /// @returns true if the op is multiply
   bool IsMultiply() const { return op_ == BinaryOp::kMultiply; }
   /// @returns true if the op is divide
   bool IsDivide() const { return op_ == BinaryOp::kDivide; }
   /// @returns true if the op is modulo
   bool IsModulo() const { return op_ == BinaryOp::kModulo; }

   /// Sets the left side of the expression
   /// @param lhs the left side to set
   void set_lhs(std::unique_ptr<Expression> lhs) { lhs_ = std::move(lhs); }
   /// @returns the left side expression
   Expression* lhs() const { return lhs_.get(); }

   /// Sets the right side of the expression
   /// @param rhs the right side to set
   void set_rhs(std::unique_ptr<Expression> rhs) { rhs_ = std::move(rhs); }
   /// @returns the right side expression
   Expression* rhs() const { return rhs_.get(); }

   /// @returns true if this is a op expression
   bool IsBinary() const override;

   /// @returns true if the node is valid
   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;

  private:
   BinaryExpression(const BinaryExpression&) = delete;

   BinaryOp op_ = BinaryOp::kNone;
   std::unique_ptr<Expression> lhs_;
   std::unique_ptr<Expression> rhs_;
 };

 inline std::ostream& operator<<(std::ostream& out, BinaryOp op) {
   switch (op) {
     case BinaryOp::kNone:
       out << "none";
       break;
     case BinaryOp::kAnd:
       out << "and";
       break;
     case BinaryOp::kOr:
       out << "or";
       break;
     case BinaryOp::kXor:
       out << "xor";
       break;
     case BinaryOp::kLogicalAnd:
       out << "logical_and";
       break;
     case BinaryOp::kLogicalOr:
       out << "logical_or";
       break;
     case BinaryOp::kEqual:
       out << "equal";
       break;
     case BinaryOp::kNotEqual:
       out << "not_equal";
       break;
     case BinaryOp::kLessThan:
       out << "less_than";
       break;
     case BinaryOp::kGreaterThan:
       out << "greater_than";
       break;
     case BinaryOp::kLessThanEqual:
       out << "less_than_equal";
       break;
     case BinaryOp::kGreaterThanEqual:
       out << "greater_than_equal";
       break;
     case BinaryOp::kShiftLeft:
       out << "shift_left";
       break;
     case BinaryOp::kShiftRight:
       out << "shift_right";
       break;
     case BinaryOp::kAdd:
       out << "add";
       break;
     case BinaryOp::kSubtract:
       out << "subtract";
       break;
     case BinaryOp::kMultiply:
       out << "multiply";
       break;
     case BinaryOp::kDivide:
       out << "divide";
       break;
     case BinaryOp::kModulo:
       out << "modulo";
       break;
   }
   return out;
 }

 }  // namespace ast
 }  // namespace tint

 #endif  // SRC_AST_BINARY_EXPRESSION_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_BINARY_EXPRESSION_H_
	#define SRC_AST_BINARY_EXPRESSION_H_

	#include <memory>
	#include <utility>

	#include "src/ast/expression.h"
	#include "src/ast/literal.h"

	namespace tint {
	namespace ast {

	/// The operator type
	enum class BinaryOp {
	kNone = 0,
	kAnd,
	kOr,
	kXor,
	kLogicalAnd,
	kLogicalOr,
	kEqual,
	kNotEqual,
	kLessThan,
	kGreaterThan,
	kLessThanEqual,
	kGreaterThanEqual,
	kShiftLeft,
	kShiftRight,
	kAdd,
	kSubtract,
	kMultiply,
	kDivide,
	kModulo,
	};

	/// An binary expression
	class BinaryExpression : public Expression {
	public:
	/// Constructor
	BinaryExpression();
	/// Constructor
	/// @param op the operation type
	/// @param lhs the left side of the expression
	/// @param rhs the right side of the expression
	BinaryExpression(BinaryOp op,
	std::unique_ptr<Expression> lhs,
	std::unique_ptr<Expression> rhs);
	/// Constructor
	/// @param source the binary expression source
	/// @param op the operation type
	/// @param lhs the left side of the expression
	/// @param rhs the right side of the expression
	BinaryExpression(const Source& source,
	BinaryOp op,
	std::unique_ptr<Expression> lhs,
	std::unique_ptr<Expression> rhs);
	/// Move constructor
	BinaryExpression(BinaryExpression&&);
	~BinaryExpression() override;

	/// Sets the binary op type
	/// @param op the binary op type
	void set_op(BinaryOp op) { op_ = op; }
	/// @returns the binary op type
	BinaryOp op() const { return op_; }

	/// @returns true if the op is and
	bool IsAnd() const { return op_ == BinaryOp::kAnd; }
	/// @returns true if the op is or
	bool IsOr() const { return op_ == BinaryOp::kOr; }
	/// @returns true if the op is xor
	bool IsXor() const { return op_ == BinaryOp::kXor; }
	/// @returns true if the op is logical and
	bool IsLogicalAnd() const { return op_ == BinaryOp::kLogicalAnd; }
	/// @returns true if the op is logical or
	bool IsLogicalOr() const { return op_ == BinaryOp::kLogicalOr; }
	/// @returns true if the op is equal
	bool IsEqual() const { return op_ == BinaryOp::kEqual; }
	/// @returns true if the op is not equal
	bool IsNotEqual() const { return op_ == BinaryOp::kNotEqual; }
	/// @returns true if the op is less than
	bool IsLessThan() const { return op_ == BinaryOp::kLessThan; }
	/// @returns true if the op is greater than
	bool IsGreaterThan() const { return op_ == BinaryOp::kGreaterThan; }
	/// @returns true if the op is less than equal
	bool IsLessThanEqual() const { return op_ == BinaryOp::kLessThanEqual; }
	/// @returns true if the op is greater than equal
	bool IsGreaterThanEqual() const { return op_ == BinaryOp::kGreaterThanEqual; }
	/// @returns true if the op is shift left
	bool IsShiftLeft() const { return op_ == BinaryOp::kShiftLeft; }
	/// @returns true if the op is shift right
	bool IsShiftRight() const { return op_ == BinaryOp::kShiftRight; }
	/// @returns true if the op is add
	bool IsAdd() const { return op_ == BinaryOp::kAdd; }
	/// @returns true if the op is subtract
	bool IsSubtract() const { return op_ == BinaryOp::kSubtract; }
	/// @returns true if the op is multiply
	bool IsMultiply() const { return op_ == BinaryOp::kMultiply; }
	/// @returns true if the op is divide
	bool IsDivide() const { return op_ == BinaryOp::kDivide; }
	/// @returns true if the op is modulo
	bool IsModulo() const { return op_ == BinaryOp::kModulo; }

	/// Sets the left side of the expression
	/// @param lhs the left side to set
	void set_lhs(std::unique_ptr<Expression> lhs) { lhs_ = std::move(lhs); }
	/// @returns the left side expression
	Expression* lhs() const { return lhs_.get(); }

	/// Sets the right side of the expression
	/// @param rhs the right side to set
	void set_rhs(std::unique_ptr<Expression> rhs) { rhs_ = std::move(rhs); }
	/// @returns the right side expression
	Expression* rhs() const { return rhs_.get(); }

	/// @returns true if this is a op expression
	bool IsBinary() const override;

	/// @returns true if the node is valid
	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;

	private:
	BinaryExpression(const BinaryExpression&) = delete;

	BinaryOp op_ = BinaryOp::kNone;
	std::unique_ptr<Expression> lhs_;
	std::unique_ptr<Expression> rhs_;
	};

	inline std::ostream& operator<<(std::ostream& out, BinaryOp op) {
	switch (op) {
	case BinaryOp::kNone:
	out << "none";
	break;
	case BinaryOp::kAnd:
	out << "and";
	break;
	case BinaryOp::kOr:
	out << "or";
	break;
	case BinaryOp::kXor:
	out << "xor";
	break;
	case BinaryOp::kLogicalAnd:
	out << "logical_and";
	break;
	case BinaryOp::kLogicalOr:
	out << "logical_or";
	break;
	case BinaryOp::kEqual:
	out << "equal";
	break;
	case BinaryOp::kNotEqual:
	out << "not_equal";
	break;
	case BinaryOp::kLessThan:
	out << "less_than";
	break;
	case BinaryOp::kGreaterThan:
	out << "greater_than";
	break;
	case BinaryOp::kLessThanEqual:
	out << "less_than_equal";
	break;
	case BinaryOp::kGreaterThanEqual:
	out << "greater_than_equal";
	break;
	case BinaryOp::kShiftLeft:
	out << "shift_left";
	break;
	case BinaryOp::kShiftRight:
	out << "shift_right";
	break;
	case BinaryOp::kAdd:
	out << "add";
	break;
	case BinaryOp::kSubtract:
	out << "subtract";
	break;
	case BinaryOp::kMultiply:
	out << "multiply";
	break;
	case BinaryOp::kDivide:
	out << "divide";
	break;
	case BinaryOp::kModulo:
	out << "modulo";
	break;
	}
	return out;
	}

	} // namespace ast
	} // namespace tint

	#endif // SRC_AST_BINARY_EXPRESSION_H_