lib/Optimizer/Dialect/FIRAttr.cpp - llvm-project/flang - Git at Google

 //===-- FIRAttr.cpp -------------------------------------------------------===//
 //
 // 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/
 //
 //===----------------------------------------------------------------------===//

 #include "flang/Optimizer/Dialect/FIRAttr.h"
 #include "flang/Optimizer/Dialect/FIRDialect.h"
 #include "flang/Optimizer/Support/KindMapping.h"
 #include "mlir/IR/AttributeSupport.h"
 #include "mlir/IR/DialectImplementation.h"
 #include "mlir/IR/Types.h"
 #include "llvm/ADT/SmallString.h"

 using namespace fir;

 namespace fir {
 namespace detail {

 struct RealAttributeStorage : public mlir::AttributeStorage {
   using KeyTy = std::pair<int, llvm::APFloat>;

   RealAttributeStorage(int kind, const llvm::APFloat &value)
       : kind(kind), value(value) {}
   RealAttributeStorage(const KeyTy &key)
       : RealAttributeStorage(key.first, key.second) {}

   static unsigned hashKey(const KeyTy &key) { return llvm::hash_value(key); }

   bool operator==(const KeyTy &key) const {
     return key.first == kind &&
            key.second.compare(value) == llvm::APFloatBase::cmpEqual;
   }

   static RealAttributeStorage *
   construct(mlir::AttributeStorageAllocator &allocator, const KeyTy &key) {
     return new (allocator.allocate<RealAttributeStorage>())
         RealAttributeStorage(key);
   }

   int getFKind() const { return kind; }
   llvm::APFloat getValue() const { return value; }

 private:
   int kind;
   llvm::APFloat value;
 };

 /// An attribute representing a reference to a type.
 struct TypeAttributeStorage : public mlir::AttributeStorage {
   using KeyTy = mlir::Type;

   TypeAttributeStorage(mlir::Type value) : value(value) {
     assert(value && "must not be of Type null");
   }

   /// Key equality function.
   bool operator==(const KeyTy &key) const { return key == value; }

   /// Construct a new storage instance.
   static TypeAttributeStorage *
   construct(mlir::AttributeStorageAllocator &allocator, KeyTy key) {
     return new (allocator.allocate<TypeAttributeStorage>())
         TypeAttributeStorage(key);
   }

   mlir::Type getType() const { return value; }

 private:
   mlir::Type value;
 };
 } // namespace detail

 ExactTypeAttr ExactTypeAttr::get(mlir::Type value) {
   return Base::get(value.getContext(), value);
 }

 mlir::Type ExactTypeAttr::getType() const { return getImpl()->getType(); }

 SubclassAttr SubclassAttr::get(mlir::Type value) {
   return Base::get(value.getContext(), value);
 }

 mlir::Type SubclassAttr::getType() const { return getImpl()->getType(); }

 using AttributeUniquer = mlir::detail::AttributeUniquer;

 ClosedIntervalAttr ClosedIntervalAttr::get(mlir::MLIRContext *ctxt) {
   return AttributeUniquer::get<ClosedIntervalAttr>(ctxt);
 }

 UpperBoundAttr UpperBoundAttr::get(mlir::MLIRContext *ctxt) {
   return AttributeUniquer::get<UpperBoundAttr>(ctxt);
 }

 LowerBoundAttr LowerBoundAttr::get(mlir::MLIRContext *ctxt) {
   return AttributeUniquer::get<LowerBoundAttr>(ctxt);
 }

 PointIntervalAttr PointIntervalAttr::get(mlir::MLIRContext *ctxt) {
   return AttributeUniquer::get<PointIntervalAttr>(ctxt);
 }

 // RealAttr

 RealAttr RealAttr::get(mlir::MLIRContext *ctxt,
                        const RealAttr::ValueType &key) {
   return Base::get(ctxt, key);
 }

 int RealAttr::getFKind() const { return getImpl()->getFKind(); }

 llvm::APFloat RealAttr::getValue() const { return getImpl()->getValue(); }

 // FIR attribute parsing

 namespace {
 mlir::Attribute parseFirRealAttr(FIROpsDialect *dialect,
                                  mlir::DialectAsmParser &parser,
                                  mlir::Type type) {
   int kind = 0;
   if (parser.parseLess() || parser.parseInteger(kind) || parser.parseComma()) {
     parser.emitError(parser.getNameLoc(), "expected '<' kind ','");
     return {};
   }
   KindMapping kindMap(dialect->getContext());
   llvm::APFloat value(0.);
   if (parser.parseOptionalKeyword("i")) {
     // `i` not present, so literal float must be present
     double dontCare;
     if (parser.parseFloat(dontCare) || parser.parseGreater()) {
       parser.emitError(parser.getNameLoc(), "expected real constant '>'");
       return {};
     }
     auto fltStr = parser.getFullSymbolSpec()
                       .drop_until([](char c) { return c == ','; })
                       .drop_front()
                       .drop_while([](char c) { return c == ' ' || c == '\t'; })
                       .take_until([](char c) {
                         return c == '>' || c == ' ' || c == '\t';
                       });
     value = llvm::APFloat(kindMap.getFloatSemantics(kind), fltStr);
   } else {
     // `i` is present, so literal bitstring (hex) must be present
     llvm::StringRef hex;
     if (parser.parseKeyword(&hex) || parser.parseGreater()) {
       parser.emitError(parser.getNameLoc(), "expected real constant '>'");
       return {};
     }
     auto bits = llvm::APInt(kind * 8, hex.drop_front(), 16);
     value = llvm::APFloat(kindMap.getFloatSemantics(kind), bits);
   }
   return RealAttr::get(dialect->getContext(), {kind, value});
 }
 } // namespace

 mlir::Attribute parseFirAttribute(FIROpsDialect *dialect,
                                   mlir::DialectAsmParser &parser,
                                   mlir::Type type) {
   auto loc = parser.getNameLoc();
   llvm::StringRef attrName;
   if (parser.parseKeyword(&attrName)) {
     parser.emitError(loc, "expected an attribute name");
     return {};
   }

   if (attrName == ExactTypeAttr::getAttrName()) {
     mlir::Type type;
     if (parser.parseLess() || parser.parseType(type) || parser.parseGreater()) {
       parser.emitError(loc, "expected a type");
       return {};
     }
     return ExactTypeAttr::get(type);
   }
   if (attrName == SubclassAttr::getAttrName()) {
     mlir::Type type;
     if (parser.parseLess() || parser.parseType(type) || parser.parseGreater()) {
       parser.emitError(loc, "expected a subtype");
       return {};
     }
     return SubclassAttr::get(type);
   }
   if (attrName == PointIntervalAttr::getAttrName())
     return PointIntervalAttr::get(dialect->getContext());
   if (attrName == LowerBoundAttr::getAttrName())
     return LowerBoundAttr::get(dialect->getContext());
   if (attrName == UpperBoundAttr::getAttrName())
     return UpperBoundAttr::get(dialect->getContext());
   if (attrName == ClosedIntervalAttr::getAttrName())
     return ClosedIntervalAttr::get(dialect->getContext());
   if (attrName == RealAttr::getAttrName())
     return parseFirRealAttr(dialect, parser, type);

   parser.emitError(loc, "unknown FIR attribute: ") << attrName;
   return {};
 }

 // FIR attribute pretty printer

 void printFirAttribute(FIROpsDialect *dialect, mlir::Attribute attr,
                        mlir::DialectAsmPrinter &p) {
   auto &os = p.getStream();
   if (auto exact = attr.dyn_cast<fir::ExactTypeAttr>()) {
     os << fir::ExactTypeAttr::getAttrName() << '<';
     p.printType(exact.getType());
     os << '>';
   } else if (auto sub = attr.dyn_cast<fir::SubclassAttr>()) {
     os << fir::SubclassAttr::getAttrName() << '<';
     p.printType(sub.getType());
     os << '>';
   } else if (attr.dyn_cast_or_null<fir::PointIntervalAttr>()) {
     os << fir::PointIntervalAttr::getAttrName();
   } else if (attr.dyn_cast_or_null<fir::ClosedIntervalAttr>()) {
     os << fir::ClosedIntervalAttr::getAttrName();
   } else if (attr.dyn_cast_or_null<fir::LowerBoundAttr>()) {
     os << fir::LowerBoundAttr::getAttrName();
   } else if (attr.dyn_cast_or_null<fir::UpperBoundAttr>()) {
     os << fir::UpperBoundAttr::getAttrName();
   } else if (auto a = attr.dyn_cast_or_null<fir::RealAttr>()) {
     os << fir::RealAttr::getAttrName() << '<' << a.getFKind() << ", i x";
     llvm::SmallString<40> ss;
     a.getValue().bitcastToAPInt().toStringUnsigned(ss, 16);
     os << ss << '>';
   } else {
     llvm_unreachable("attribute pretty-printer is not implemented");
   }
 }

 } // namespace fir
	//===-- FIRAttr.cpp -------------------------------------------------------===//
	//
	// 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/
	//
	//===----------------------------------------------------------------------===//

	#include "flang/Optimizer/Dialect/FIRAttr.h"
	#include "flang/Optimizer/Dialect/FIRDialect.h"
	#include "flang/Optimizer/Support/KindMapping.h"
	#include "mlir/IR/AttributeSupport.h"
	#include "mlir/IR/DialectImplementation.h"
	#include "mlir/IR/Types.h"
	#include "llvm/ADT/SmallString.h"

	using namespace fir;

	namespace fir {
	namespace detail {

	struct RealAttributeStorage : public mlir::AttributeStorage {
	using KeyTy = std::pair<int, llvm::APFloat>;

	RealAttributeStorage(int kind, const llvm::APFloat &value)
	: kind(kind), value(value) {}
	RealAttributeStorage(const KeyTy &key)
	: RealAttributeStorage(key.first, key.second) {}

	static unsigned hashKey(const KeyTy &key) { return llvm::hash_value(key); }

	bool operator==(const KeyTy &key) const {
	return key.first == kind &&
	key.second.compare(value) == llvm::APFloatBase::cmpEqual;
	}

	static RealAttributeStorage *
	construct(mlir::AttributeStorageAllocator &allocator, const KeyTy &key) {
	return new (allocator.allocate<RealAttributeStorage>())
	RealAttributeStorage(key);
	}

	int getFKind() const { return kind; }
	llvm::APFloat getValue() const { return value; }

	private:
	int kind;
	llvm::APFloat value;
	};

	/// An attribute representing a reference to a type.
	struct TypeAttributeStorage : public mlir::AttributeStorage {
	using KeyTy = mlir::Type;

	TypeAttributeStorage(mlir::Type value) : value(value) {
	assert(value && "must not be of Type null");
	}

	/// Key equality function.
	bool operator==(const KeyTy &key) const { return key == value; }

	/// Construct a new storage instance.
	static TypeAttributeStorage *
	construct(mlir::AttributeStorageAllocator &allocator, KeyTy key) {
	return new (allocator.allocate<TypeAttributeStorage>())
	TypeAttributeStorage(key);
	}

	mlir::Type getType() const { return value; }

	private:
	mlir::Type value;
	};
	} // namespace detail

	ExactTypeAttr ExactTypeAttr::get(mlir::Type value) {
	return Base::get(value.getContext(), value);
	}

	mlir::Type ExactTypeAttr::getType() const { return getImpl()->getType(); }

	SubclassAttr SubclassAttr::get(mlir::Type value) {
	return Base::get(value.getContext(), value);
	}

	mlir::Type SubclassAttr::getType() const { return getImpl()->getType(); }

	using AttributeUniquer = mlir::detail::AttributeUniquer;

	ClosedIntervalAttr ClosedIntervalAttr::get(mlir::MLIRContext *ctxt) {
	return AttributeUniquer::get<ClosedIntervalAttr>(ctxt);
	}

	UpperBoundAttr UpperBoundAttr::get(mlir::MLIRContext *ctxt) {
	return AttributeUniquer::get<UpperBoundAttr>(ctxt);
	}

	LowerBoundAttr LowerBoundAttr::get(mlir::MLIRContext *ctxt) {
	return AttributeUniquer::get<LowerBoundAttr>(ctxt);
	}

	PointIntervalAttr PointIntervalAttr::get(mlir::MLIRContext *ctxt) {
	return AttributeUniquer::get<PointIntervalAttr>(ctxt);
	}

	// RealAttr

	RealAttr RealAttr::get(mlir::MLIRContext *ctxt,
	const RealAttr::ValueType &key) {
	return Base::get(ctxt, key);
	}

	int RealAttr::getFKind() const { return getImpl()->getFKind(); }

	llvm::APFloat RealAttr::getValue() const { return getImpl()->getValue(); }

	// FIR attribute parsing

	namespace {
	mlir::Attribute parseFirRealAttr(FIROpsDialect *dialect,
	mlir::DialectAsmParser &parser,
	mlir::Type type) {
	int kind = 0;
	if (parser.parseLess() \|\| parser.parseInteger(kind) \|\| parser.parseComma()) {
	parser.emitError(parser.getNameLoc(), "expected '<' kind ','");
	return {};
	}
	KindMapping kindMap(dialect->getContext());
	llvm::APFloat value(0.);
	if (parser.parseOptionalKeyword("i")) {
	// `i` not present, so literal float must be present
	double dontCare;
	if (parser.parseFloat(dontCare) \|\| parser.parseGreater()) {
	parser.emitError(parser.getNameLoc(), "expected real constant '>'");
	return {};
	}
	auto fltStr = parser.getFullSymbolSpec()
	.drop_until([](char c) { return c == ','; })
	.drop_front()
	.drop_while([](char c) { return c == ' ' \|\| c == '\t'; })
	.take_until([](char c) {
	return c == '>' \|\| c == ' ' \|\| c == '\t';
	});
	value = llvm::APFloat(kindMap.getFloatSemantics(kind), fltStr);
	} else {
	// `i` is present, so literal bitstring (hex) must be present
	llvm::StringRef hex;
	if (parser.parseKeyword(&hex) \|\| parser.parseGreater()) {
	parser.emitError(parser.getNameLoc(), "expected real constant '>'");
	return {};
	}
	auto bits = llvm::APInt(kind * 8, hex.drop_front(), 16);
	value = llvm::APFloat(kindMap.getFloatSemantics(kind), bits);
	}
	return RealAttr::get(dialect->getContext(), {kind, value});
	}
	} // namespace

	mlir::Attribute parseFirAttribute(FIROpsDialect *dialect,
	mlir::DialectAsmParser &parser,
	mlir::Type type) {
	auto loc = parser.getNameLoc();
	llvm::StringRef attrName;
	if (parser.parseKeyword(&attrName)) {
	parser.emitError(loc, "expected an attribute name");
	return {};
	}

	if (attrName == ExactTypeAttr::getAttrName()) {
	mlir::Type type;
	if (parser.parseLess() \|\| parser.parseType(type) \|\| parser.parseGreater()) {
	parser.emitError(loc, "expected a type");
	return {};
	}
	return ExactTypeAttr::get(type);
	}
	if (attrName == SubclassAttr::getAttrName()) {
	mlir::Type type;
	if (parser.parseLess() \|\| parser.parseType(type) \|\| parser.parseGreater()) {
	parser.emitError(loc, "expected a subtype");
	return {};
	}
	return SubclassAttr::get(type);
	}
	if (attrName == PointIntervalAttr::getAttrName())
	return PointIntervalAttr::get(dialect->getContext());
	if (attrName == LowerBoundAttr::getAttrName())
	return LowerBoundAttr::get(dialect->getContext());
	if (attrName == UpperBoundAttr::getAttrName())
	return UpperBoundAttr::get(dialect->getContext());
	if (attrName == ClosedIntervalAttr::getAttrName())
	return ClosedIntervalAttr::get(dialect->getContext());
	if (attrName == RealAttr::getAttrName())
	return parseFirRealAttr(dialect, parser, type);

	parser.emitError(loc, "unknown FIR attribute: ") << attrName;
	return {};
	}

	// FIR attribute pretty printer

	void printFirAttribute(FIROpsDialect *dialect, mlir::Attribute attr,
	mlir::DialectAsmPrinter &p) {
	auto &os = p.getStream();
	if (auto exact = attr.dyn_cast<fir::ExactTypeAttr>()) {
	os << fir::ExactTypeAttr::getAttrName() << '<';
	p.printType(exact.getType());
	os << '>';
	} else if (auto sub = attr.dyn_cast<fir::SubclassAttr>()) {
	os << fir::SubclassAttr::getAttrName() << '<';
	p.printType(sub.getType());
	os << '>';
	} else if (attr.dyn_cast_or_null<fir::PointIntervalAttr>()) {
	os << fir::PointIntervalAttr::getAttrName();
	} else if (attr.dyn_cast_or_null<fir::ClosedIntervalAttr>()) {
	os << fir::ClosedIntervalAttr::getAttrName();
	} else if (attr.dyn_cast_or_null<fir::LowerBoundAttr>()) {
	os << fir::LowerBoundAttr::getAttrName();
	} else if (attr.dyn_cast_or_null<fir::UpperBoundAttr>()) {
	os << fir::UpperBoundAttr::getAttrName();
	} else if (auto a = attr.dyn_cast_or_null<fir::RealAttr>()) {
	os << fir::RealAttr::getAttrName() << '<' << a.getFKind() << ", i x";
	llvm::SmallString<40> ss;
	a.getValue().bitcastToAPInt().toStringUnsigned(ss, 16);
	os << ss << '>';
	} else {
	llvm_unreachable("attribute pretty-printer is not implemented");
	}
	}

	} // namespace fir