include/flang/Optimizer/Dialect/FIRAttr.h - llvm-project/flang - Git at Google

 //===-- Optimizer/Dialect/FIRAttr.h -- FIR attributes -----------*- C++ -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//
 //
 // Coding style: https://mlir.llvm.org/getting_started/DeveloperGuide/
 //
 //===----------------------------------------------------------------------===//

 #ifndef OPTIMIZER_DIALECT_FIRATTR_H
 #define OPTIMIZER_DIALECT_FIRATTR_H

 #include "mlir/IR/BuiltinAttributes.h"

 namespace mlir {
 class DialectAsmParser;
 class DialectAsmPrinter;
 } // namespace mlir

 namespace fir {

 class FIROpsDialect;

 namespace detail {
 struct RealAttributeStorage;
 struct TypeAttributeStorage;
 } // namespace detail

 class ExactTypeAttr
     : public mlir::Attribute::AttrBase<ExactTypeAttr, mlir::Attribute,
                                        detail::TypeAttributeStorage> {
 public:
   using Base::Base;
   using ValueType = mlir::Type;

   static constexpr llvm::StringRef getAttrName() { return "instance"; }
   static ExactTypeAttr get(mlir::Type value);

   mlir::Type getType() const;
 };

 class SubclassAttr
     : public mlir::Attribute::AttrBase<SubclassAttr, mlir::Attribute,
                                        detail::TypeAttributeStorage> {
 public:
   using Base::Base;
   using ValueType = mlir::Type;

   static constexpr llvm::StringRef getAttrName() { return "subsumed"; }
   static SubclassAttr get(mlir::Type value);

   mlir::Type getType() const;
 };

 // Attributes for building SELECT CASE multiway branches

 /// A closed interval (including the bound values) is an interval with both an
 /// upper and lower bound as given as ssa-values.
 /// A case selector of `CASE (n:m)` corresponds to any value from `n` to `m` and
 /// is encoded as `#fir.interval, %n, %m`.
 class ClosedIntervalAttr
     : public mlir::Attribute::AttrBase<ClosedIntervalAttr, mlir::Attribute,
                                        mlir::AttributeStorage> {
 public:
   using Base::Base;

   static constexpr llvm::StringRef getAttrName() { return "interval"; }
   static ClosedIntervalAttr get(mlir::MLIRContext *ctxt);
 };

 /// An upper bound is an open interval (including the bound value) as given as
 /// an ssa-value.
 /// A case selector of `CASE (:m)` corresponds to any value up to and including
 /// `m` and is encoded as `#fir.upper, %m`.
 class UpperBoundAttr
     : public mlir::Attribute::AttrBase<UpperBoundAttr, mlir::Attribute,
                                        mlir::AttributeStorage> {
 public:
   using Base::Base;

   static constexpr llvm::StringRef getAttrName() { return "upper"; }
   static UpperBoundAttr get(mlir::MLIRContext *ctxt);
 };

 /// A lower bound is an open interval (including the bound value) as given as
 /// an ssa-value.
 /// A case selector of `CASE (n:)` corresponds to any value down to and
 /// including `n` and is encoded as `#fir.lower, %n`.
 class LowerBoundAttr
     : public mlir::Attribute::AttrBase<LowerBoundAttr, mlir::Attribute,
                                        mlir::AttributeStorage> {
 public:
   using Base::Base;

   static constexpr llvm::StringRef getAttrName() { return "lower"; }
   static LowerBoundAttr get(mlir::MLIRContext *ctxt);
 };

 /// A pointer interval is a closed interval as given as an ssa-value. The
 /// interval contains exactly one value.
 /// A case selector of `CASE (p)` corresponds to exactly the value `p` and is
 /// encoded as `#fir.point, %p`.
 class PointIntervalAttr
     : public mlir::Attribute::AttrBase<PointIntervalAttr, mlir::Attribute,
                                        mlir::AttributeStorage> {
 public:
   using Base::Base;

   static constexpr llvm::StringRef getAttrName() { return "point"; }
   static PointIntervalAttr get(mlir::MLIRContext *ctxt);
 };

 /// A real attribute is used to workaround MLIR's default parsing of a real
 /// constant.
 /// `#fir.real<10, 3.14>` is used to introduce a real constant of value `3.14`
 /// with a kind of `10`.
 class RealAttr
     : public mlir::Attribute::AttrBase<RealAttr, mlir::Attribute,
                                        detail::RealAttributeStorage> {
 public:
   using Base::Base;
   using ValueType = std::pair<int, llvm::APFloat>;

   static constexpr llvm::StringRef getAttrName() { return "real"; }
   static RealAttr get(mlir::MLIRContext *ctxt, const ValueType &key);

   int getFKind() const;
   llvm::APFloat getValue() const;
 };

 mlir::Attribute parseFirAttribute(FIROpsDialect *dialect,
                                   mlir::DialectAsmParser &parser,
                                   mlir::Type type);

 void printFirAttribute(FIROpsDialect *dialect, mlir::Attribute attr,
                        mlir::DialectAsmPrinter &p);

 } // namespace fir

 #endif // OPTIMIZER_DIALECT_FIRATTR_H
	//===-- Optimizer/Dialect/FIRAttr.h -- FIR attributes ------------ C++ --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//
	//
	// Coding style: https://mlir.llvm.org/getting_started/DeveloperGuide/
	//
	//===----------------------------------------------------------------------===//

	#ifndef OPTIMIZER_DIALECT_FIRATTR_H
	#define OPTIMIZER_DIALECT_FIRATTR_H

	#include "mlir/IR/BuiltinAttributes.h"

	namespace mlir {
	class DialectAsmParser;
	class DialectAsmPrinter;
	} // namespace mlir

	namespace fir {

	class FIROpsDialect;

	namespace detail {
	struct RealAttributeStorage;
	struct TypeAttributeStorage;
	} // namespace detail

	class ExactTypeAttr
	: public mlir::Attribute::AttrBase<ExactTypeAttr, mlir::Attribute,
	detail::TypeAttributeStorage> {
	public:
	using Base::Base;
	using ValueType = mlir::Type;

	static constexpr llvm::StringRef getAttrName() { return "instance"; }
	static ExactTypeAttr get(mlir::Type value);

	mlir::Type getType() const;
	};

	class SubclassAttr
	: public mlir::Attribute::AttrBase<SubclassAttr, mlir::Attribute,
	detail::TypeAttributeStorage> {
	public:
	using Base::Base;
	using ValueType = mlir::Type;

	static constexpr llvm::StringRef getAttrName() { return "subsumed"; }
	static SubclassAttr get(mlir::Type value);

	mlir::Type getType() const;
	};

	// Attributes for building SELECT CASE multiway branches

	/// A closed interval (including the bound values) is an interval with both an
	/// upper and lower bound as given as ssa-values.
	/// A case selector of `CASE (n:m)` corresponds to any value from `n` to `m` and
	/// is encoded as `#fir.interval, %n, %m`.
	class ClosedIntervalAttr
	: public mlir::Attribute::AttrBase<ClosedIntervalAttr, mlir::Attribute,
	mlir::AttributeStorage> {
	public:
	using Base::Base;

	static constexpr llvm::StringRef getAttrName() { return "interval"; }
	static ClosedIntervalAttr get(mlir::MLIRContext *ctxt);
	};

	/// An upper bound is an open interval (including the bound value) as given as
	/// an ssa-value.
	/// A case selector of `CASE (:m)` corresponds to any value up to and including
	/// `m` and is encoded as `#fir.upper, %m`.
	class UpperBoundAttr
	: public mlir::Attribute::AttrBase<UpperBoundAttr, mlir::Attribute,
	mlir::AttributeStorage> {
	public:
	using Base::Base;

	static constexpr llvm::StringRef getAttrName() { return "upper"; }
	static UpperBoundAttr get(mlir::MLIRContext *ctxt);
	};

	/// A lower bound is an open interval (including the bound value) as given as
	/// an ssa-value.
	/// A case selector of `CASE (n:)` corresponds to any value down to and
	/// including `n` and is encoded as `#fir.lower, %n`.
	class LowerBoundAttr
	: public mlir::Attribute::AttrBase<LowerBoundAttr, mlir::Attribute,
	mlir::AttributeStorage> {
	public:
	using Base::Base;

	static constexpr llvm::StringRef getAttrName() { return "lower"; }
	static LowerBoundAttr get(mlir::MLIRContext *ctxt);
	};

	/// A pointer interval is a closed interval as given as an ssa-value. The
	/// interval contains exactly one value.
	/// A case selector of `CASE (p)` corresponds to exactly the value `p` and is
	/// encoded as `#fir.point, %p`.
	class PointIntervalAttr
	: public mlir::Attribute::AttrBase<PointIntervalAttr, mlir::Attribute,
	mlir::AttributeStorage> {
	public:
	using Base::Base;

	static constexpr llvm::StringRef getAttrName() { return "point"; }
	static PointIntervalAttr get(mlir::MLIRContext *ctxt);
	};

	/// A real attribute is used to workaround MLIR's default parsing of a real
	/// constant.
	/// `#fir.real<10, 3.14>` is used to introduce a real constant of value `3.14`
	/// with a kind of `10`.
	class RealAttr
	: public mlir::Attribute::AttrBase<RealAttr, mlir::Attribute,
	detail::RealAttributeStorage> {
	public:
	using Base::Base;
	using ValueType = std::pair<int, llvm::APFloat>;

	static constexpr llvm::StringRef getAttrName() { return "real"; }
	static RealAttr get(mlir::MLIRContext *ctxt, const ValueType &key);

	int getFKind() const;
	llvm::APFloat getValue() const;
	};

	mlir::Attribute parseFirAttribute(FIROpsDialect *dialect,
	mlir::DialectAsmParser &parser,
	mlir::Type type);

	void printFirAttribute(FIROpsDialect *dialect, mlir::Attribute attr,
	mlir::DialectAsmPrinter &p);

	} // namespace fir

	#endif // OPTIMIZER_DIALECT_FIRATTR_H