lib/Lower/FIRBuilder.cpp - llvm-project/flang - Git at Google

 //===-- FIRBuilder.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
 //
 //===----------------------------------------------------------------------===//

 #include "flang/Lower/FIRBuilder.h"
 #include "SymbolMap.h"
 #include "flang/Lower/Bridge.h"
 #include "flang/Lower/ComplexExpr.h"
 #include "flang/Lower/ConvertType.h"
 #include "flang/Optimizer/Dialect/FIROpsSupport.h"
 #include "flang/Semantics/symbol.h"
 #include "llvm/Support/ErrorHandling.h"

 mlir::FuncOp Fortran::lower::FirOpBuilder::createFunction(
     mlir::Location loc, mlir::ModuleOp module, llvm::StringRef name,
     mlir::FunctionType ty) {
   return fir::createFuncOp(loc, module, name, ty);
 }

 mlir::FuncOp
 Fortran::lower::FirOpBuilder::getNamedFunction(mlir::ModuleOp modOp,
                                                llvm::StringRef name) {
   return modOp.lookupSymbol<mlir::FuncOp>(name);
 }

 fir::GlobalOp
 Fortran::lower::FirOpBuilder::getNamedGlobal(mlir::ModuleOp modOp,
                                              llvm::StringRef name) {
   return modOp.lookupSymbol<fir::GlobalOp>(name);
 }

 mlir::Type Fortran::lower::FirOpBuilder::getRefType(mlir::Type eleTy) {
   assert(!eleTy.isa<fir::ReferenceType>());
   return fir::ReferenceType::get(eleTy);
 }

 mlir::Value
 Fortran::lower::FirOpBuilder::createNullConstant(mlir::Location loc) {
   auto indexType = getIndexType();
   auto zero = createIntegerConstant(loc, indexType, 0);
   auto noneRefType = getRefType(getNoneType());
   return createConvert(loc, noneRefType, zero);
 }

 mlir::Value Fortran::lower::FirOpBuilder::createIntegerConstant(
     mlir::Location loc, mlir::Type ty, std::int64_t cst) {
   return create<mlir::ConstantOp>(loc, ty, getIntegerAttr(ty, cst));
 }

 mlir::Value Fortran::lower::FirOpBuilder::createRealConstant(
     mlir::Location loc, mlir::Type realType, const llvm::APFloat &val) {
   return create<mlir::ConstantOp>(loc, realType, getFloatAttr(realType, val));
 }

 mlir::Value
 Fortran::lower::FirOpBuilder::createRealZeroConstant(mlir::Location loc,
                                                      mlir::Type realType) {
   mlir::Attribute attr;
   if (auto firType = realType.dyn_cast<fir::RealType>()) {
     attr = getFloatAttr(
         realType,
         llvm::APFloat(kindMap.getFloatSemantics(firType.getFKind()), 0));
   } else { // mlir::FloatType.
     attr = getZeroAttr(realType);
   }
   return create<mlir::ConstantOp>(loc, realType, attr);
 }

 mlir::Value Fortran::lower::FirOpBuilder::allocateLocal(
     mlir::Location loc, mlir::Type ty, llvm::StringRef nm,
     llvm::ArrayRef<mlir::Value> shape, bool asTarget) {
   llvm::SmallVector<mlir::Value, 8> indices;
   auto idxTy = getIndexType();
   llvm::for_each(shape, [&](mlir::Value sh) {
     indices.push_back(createConvert(loc, idxTy, sh));
   });
   llvm::SmallVector<mlir::NamedAttribute, 2> attrs;
   if (asTarget)
     attrs.emplace_back(mlir::Identifier::get("target", getContext()),
                        getUnitAttr());
   return create<fir::AllocaOp>(loc, ty, nm, llvm::None, indices, attrs);
 }

 /// Create a temporary variable on the stack. Anonymous temporaries have no
 /// `name` value.
 mlir::Value Fortran::lower::FirOpBuilder::createTemporary(
     mlir::Location loc, mlir::Type type, llvm::StringRef name,
     llvm::ArrayRef<mlir::Value> shape) {
   auto insPt = saveInsertionPoint();
   if (shape.empty())
     setInsertionPointToStart(getEntryBlock());
   else
     setInsertionPointAfter(shape.back().getDefiningOp());
   assert(!type.isa<fir::ReferenceType>() && "cannot be a reference");
   auto ae = create<fir::AllocaOp>(loc, type, name, llvm::None, shape);
   restoreInsertionPoint(insPt);
   return ae;
 }

 /// Create a global variable in the (read-only) data section. A global variable
 /// must have a unique name to identify and reference it.
 fir::GlobalOp Fortran::lower::FirOpBuilder::createGlobal(
     mlir::Location loc, mlir::Type type, llvm::StringRef name,
     mlir::StringAttr linkage, mlir::Attribute value, bool isConst) {
   auto module = getModule();
   auto insertPt = saveInsertionPoint();
   if (auto glob = module.lookupSymbol<fir::GlobalOp>(name))
     return glob;
   setInsertionPoint(module.getBody()->getTerminator());
   auto glob = create<fir::GlobalOp>(loc, name, isConst, type, value, linkage);
   restoreInsertionPoint(insertPt);
   return glob;
 }

 fir::GlobalOp Fortran::lower::FirOpBuilder::createGlobal(
     mlir::Location loc, mlir::Type type, llvm::StringRef name, bool isConst,
     std::function<void(FirOpBuilder &)> bodyBuilder, mlir::StringAttr linkage) {
   auto module = getModule();
   auto insertPt = saveInsertionPoint();
   if (auto glob = module.lookupSymbol<fir::GlobalOp>(name))
     return glob;
   setInsertionPoint(module.getBody()->getTerminator());
   auto glob = create<fir::GlobalOp>(loc, name, isConst, type, mlir::Attribute{},
                                     linkage);
   auto &region = glob.getRegion();
   region.push_back(new mlir::Block);
   auto &block = glob.getRegion().back();
   setInsertionPointToStart(&block);
   bodyBuilder(*this);
   restoreInsertionPoint(insertPt);
   return glob;
 }

 mlir::Value Fortran::lower::FirOpBuilder::convertWithSemantics(
     mlir::Location loc, mlir::Type toTy, mlir::Value val) {
   assert(toTy && "store location must be typed");
   auto fromTy = val.getType();
   if (fromTy == toTy)
     return val;
   // FIXME: add a fir::is_integer() test
   ComplexExprHelper helper{*this, loc};
   if ((fir::isa_real(fromTy) || fromTy.isSignlessInteger()) &&
       fir::isa_complex(toTy)) {
     // imaginary part is zero
     auto eleTy = helper.getComplexPartType(toTy);
     auto cast = createConvert(loc, eleTy, val);
     llvm::APFloat zero{
         kindMap.getFloatSemantics(toTy.cast<fir::ComplexType>().getFKind()), 0};
     auto imag = createRealConstant(loc, eleTy, zero);
     return helper.createComplex(toTy, cast, imag);
   }
   // FIXME: add a fir::is_integer() test
   if (fir::isa_complex(fromTy) &&
       (toTy.isSignlessInteger() || fir::isa_real(toTy))) {
     // drop the imaginary part
     auto rp = helper.extractComplexPart(val, /*isImagPart=*/false);
     return createConvert(loc, toTy, rp);
   }
   return createConvert(loc, toTy, val);
 }

 mlir::Value Fortran::lower::FirOpBuilder::createConvert(mlir::Location loc,
                                                         mlir::Type toTy,
                                                         mlir::Value val) {
   if (val.getType() != toTy)
     return create<fir::ConvertOp>(loc, toTy, val);
   return val;
 }

 fir::StringLitOp Fortran::lower::FirOpBuilder::createStringLit(
     mlir::Location loc, mlir::Type eleTy, llvm::StringRef data) {
   auto strAttr = mlir::StringAttr::get(getContext(), data);
   auto valTag = mlir::Identifier::get(fir::StringLitOp::value(), getContext());
   mlir::NamedAttribute dataAttr(valTag, strAttr);
   auto sizeTag = mlir::Identifier::get(fir::StringLitOp::size(), getContext());
   mlir::NamedAttribute sizeAttr(sizeTag, getI64IntegerAttr(data.size()));
   llvm::SmallVector<mlir::NamedAttribute, 2> attrs{dataAttr, sizeAttr};
   auto arrTy =
       fir::SequenceType::get(fir::SequenceType::Shape(1, data.size()), eleTy);
   return create<fir::StringLitOp>(loc, llvm::ArrayRef<mlir::Type>{arrTy},
                                   llvm::None, attrs);
 }
	//===-- FIRBuilder.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
	//
	//===----------------------------------------------------------------------===//

	#include "flang/Lower/FIRBuilder.h"
	#include "SymbolMap.h"
	#include "flang/Lower/Bridge.h"
	#include "flang/Lower/ComplexExpr.h"
	#include "flang/Lower/ConvertType.h"
	#include "flang/Optimizer/Dialect/FIROpsSupport.h"
	#include "flang/Semantics/symbol.h"
	#include "llvm/Support/ErrorHandling.h"

	mlir::FuncOp Fortran::lower::FirOpBuilder::createFunction(
	mlir::Location loc, mlir::ModuleOp module, llvm::StringRef name,
	mlir::FunctionType ty) {
	return fir::createFuncOp(loc, module, name, ty);
	}

	mlir::FuncOp
	Fortran::lower::FirOpBuilder::getNamedFunction(mlir::ModuleOp modOp,
	llvm::StringRef name) {
	return modOp.lookupSymbol<mlir::FuncOp>(name);
	}

	fir::GlobalOp
	Fortran::lower::FirOpBuilder::getNamedGlobal(mlir::ModuleOp modOp,
	llvm::StringRef name) {
	return modOp.lookupSymbol<fir::GlobalOp>(name);
	}

	mlir::Type Fortran::lower::FirOpBuilder::getRefType(mlir::Type eleTy) {
	assert(!eleTy.isa<fir::ReferenceType>());
	return fir::ReferenceType::get(eleTy);
	}

	mlir::Value
	Fortran::lower::FirOpBuilder::createNullConstant(mlir::Location loc) {
	auto indexType = getIndexType();
	auto zero = createIntegerConstant(loc, indexType, 0);
	auto noneRefType = getRefType(getNoneType());
	return createConvert(loc, noneRefType, zero);
	}

	mlir::Value Fortran::lower::FirOpBuilder::createIntegerConstant(
	mlir::Location loc, mlir::Type ty, std::int64_t cst) {
	return create<mlir::ConstantOp>(loc, ty, getIntegerAttr(ty, cst));
	}

	mlir::Value Fortran::lower::FirOpBuilder::createRealConstant(
	mlir::Location loc, mlir::Type realType, const llvm::APFloat &val) {
	return create<mlir::ConstantOp>(loc, realType, getFloatAttr(realType, val));
	}

	mlir::Value
	Fortran::lower::FirOpBuilder::createRealZeroConstant(mlir::Location loc,
	mlir::Type realType) {
	mlir::Attribute attr;
	if (auto firType = realType.dyn_cast<fir::RealType>()) {
	attr = getFloatAttr(
	realType,
	llvm::APFloat(kindMap.getFloatSemantics(firType.getFKind()), 0));
	} else { // mlir::FloatType.
	attr = getZeroAttr(realType);
	}
	return create<mlir::ConstantOp>(loc, realType, attr);
	}

	mlir::Value Fortran::lower::FirOpBuilder::allocateLocal(
	mlir::Location loc, mlir::Type ty, llvm::StringRef nm,
	llvm::ArrayRef<mlir::Value> shape, bool asTarget) {
	llvm::SmallVector<mlir::Value, 8> indices;
	auto idxTy = getIndexType();
	llvm::for_each(shape, [&](mlir::Value sh) {
	indices.push_back(createConvert(loc, idxTy, sh));
	});
	llvm::SmallVector<mlir::NamedAttribute, 2> attrs;
	if (asTarget)
	attrs.emplace_back(mlir::Identifier::get("target", getContext()),
	getUnitAttr());
	return create<fir::AllocaOp>(loc, ty, nm, llvm::None, indices, attrs);
	}

	/// Create a temporary variable on the stack. Anonymous temporaries have no
	/// `name` value.
	mlir::Value Fortran::lower::FirOpBuilder::createTemporary(
	mlir::Location loc, mlir::Type type, llvm::StringRef name,
	llvm::ArrayRef<mlir::Value> shape) {
	auto insPt = saveInsertionPoint();
	if (shape.empty())
	setInsertionPointToStart(getEntryBlock());
	else
	setInsertionPointAfter(shape.back().getDefiningOp());
	assert(!type.isa<fir::ReferenceType>() && "cannot be a reference");
	auto ae = create<fir::AllocaOp>(loc, type, name, llvm::None, shape);
	restoreInsertionPoint(insPt);
	return ae;
	}

	/// Create a global variable in the (read-only) data section. A global variable
	/// must have a unique name to identify and reference it.
	fir::GlobalOp Fortran::lower::FirOpBuilder::createGlobal(
	mlir::Location loc, mlir::Type type, llvm::StringRef name,
	mlir::StringAttr linkage, mlir::Attribute value, bool isConst) {
	auto module = getModule();
	auto insertPt = saveInsertionPoint();
	if (auto glob = module.lookupSymbol<fir::GlobalOp>(name))
	return glob;
	setInsertionPoint(module.getBody()->getTerminator());
	auto glob = create<fir::GlobalOp>(loc, name, isConst, type, value, linkage);
	restoreInsertionPoint(insertPt);
	return glob;
	}

	fir::GlobalOp Fortran::lower::FirOpBuilder::createGlobal(
	mlir::Location loc, mlir::Type type, llvm::StringRef name, bool isConst,
	std::function<void(FirOpBuilder &)> bodyBuilder, mlir::StringAttr linkage) {
	auto module = getModule();
	auto insertPt = saveInsertionPoint();
	if (auto glob = module.lookupSymbol<fir::GlobalOp>(name))
	return glob;
	setInsertionPoint(module.getBody()->getTerminator());
	auto glob = create<fir::GlobalOp>(loc, name, isConst, type, mlir::Attribute{},
	linkage);
	auto &region = glob.getRegion();
	region.push_back(new mlir::Block);
	auto &block = glob.getRegion().back();
	setInsertionPointToStart(&block);
	bodyBuilder(*this);
	restoreInsertionPoint(insertPt);
	return glob;
	}

	mlir::Value Fortran::lower::FirOpBuilder::convertWithSemantics(
	mlir::Location loc, mlir::Type toTy, mlir::Value val) {
	assert(toTy && "store location must be typed");
	auto fromTy = val.getType();
	if (fromTy == toTy)
	return val;
	// FIXME: add a fir::is_integer() test
	ComplexExprHelper helper{*this, loc};
	if ((fir::isa_real(fromTy) \|\| fromTy.isSignlessInteger()) &&
	fir::isa_complex(toTy)) {
	// imaginary part is zero
	auto eleTy = helper.getComplexPartType(toTy);
	auto cast = createConvert(loc, eleTy, val);
	llvm::APFloat zero{
	kindMap.getFloatSemantics(toTy.cast<fir::ComplexType>().getFKind()), 0};
	auto imag = createRealConstant(loc, eleTy, zero);
	return helper.createComplex(toTy, cast, imag);
	}
	// FIXME: add a fir::is_integer() test
	if (fir::isa_complex(fromTy) &&
	(toTy.isSignlessInteger() \|\| fir::isa_real(toTy))) {
	// drop the imaginary part
	auto rp = helper.extractComplexPart(val, /isImagPart=/false);
	return createConvert(loc, toTy, rp);
	}
	return createConvert(loc, toTy, val);
	}

	mlir::Value Fortran::lower::FirOpBuilder::createConvert(mlir::Location loc,
	mlir::Type toTy,
	mlir::Value val) {
	if (val.getType() != toTy)
	return create<fir::ConvertOp>(loc, toTy, val);
	return val;
	}

	fir::StringLitOp Fortran::lower::FirOpBuilder::createStringLit(
	mlir::Location loc, mlir::Type eleTy, llvm::StringRef data) {
	auto strAttr = mlir::StringAttr::get(getContext(), data);
	auto valTag = mlir::Identifier::get(fir::StringLitOp::value(), getContext());
	mlir::NamedAttribute dataAttr(valTag, strAttr);
	auto sizeTag = mlir::Identifier::get(fir::StringLitOp::size(), getContext());
	mlir::NamedAttribute sizeAttr(sizeTag, getI64IntegerAttr(data.size()));
	llvm::SmallVector<mlir::NamedAttribute, 2> attrs{dataAttr, sizeAttr};
	auto arrTy =
	fir::SequenceType::get(fir::SequenceType::Shape(1, data.size()), eleTy);
	return create<fir::StringLitOp>(loc, llvm::ArrayRef<mlir::Type>{arrTy},
	llvm::None, attrs);
	}