lib/Optimizer/Builder/LowLevelIntrinsics.cpp - llvm-project/flang - Git at Google

 //===-- LowLevelIntrinsics.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/
 //
 //===----------------------------------------------------------------------===//
 //
 // Low level intrinsic functions.
 //
 // These include LLVM intrinsic calls and standard C library calls.
 // Target-specific calls, such as OS functions, should be factored in other
 // file(s).
 //
 //===----------------------------------------------------------------------===//

 #include "flang/Optimizer/Builder/LowLevelIntrinsics.h"
 #include "flang/Optimizer/Builder/FIRBuilder.h"

 mlir::func::FuncOp fir::factory::getLlvmMemcpy(fir::FirOpBuilder &builder) {
   auto ptrTy = builder.getRefType(builder.getIntegerType(8));
   llvm::SmallVector<mlir::Type> args = {ptrTy, ptrTy, builder.getI64Type(),
                                         builder.getI1Type()};
   auto memcpyTy =
       mlir::FunctionType::get(builder.getContext(), args, std::nullopt);
   return builder.createFunction(builder.getUnknownLoc(),
                                 "llvm.memcpy.p0.p0.i64", memcpyTy);
 }

 mlir::func::FuncOp fir::factory::getLlvmMemmove(fir::FirOpBuilder &builder) {
   auto ptrTy = builder.getRefType(builder.getIntegerType(8));
   llvm::SmallVector<mlir::Type> args = {ptrTy, ptrTy, builder.getI64Type(),
                                         builder.getI1Type()};
   auto memmoveTy =
       mlir::FunctionType::get(builder.getContext(), args, std::nullopt);
   return builder.createFunction(builder.getUnknownLoc(),
                                 "llvm.memmove.p0.p0.i64", memmoveTy);
 }

 mlir::func::FuncOp fir::factory::getLlvmMemset(fir::FirOpBuilder &builder) {
   auto ptrTy = builder.getRefType(builder.getIntegerType(8));
   llvm::SmallVector<mlir::Type> args = {ptrTy, ptrTy, builder.getI64Type(),
                                         builder.getI1Type()};
   auto memsetTy =
       mlir::FunctionType::get(builder.getContext(), args, std::nullopt);
   return builder.createFunction(builder.getUnknownLoc(),
                                 "llvm.memset.p0.p0.i64", memsetTy);
 }

 mlir::func::FuncOp fir::factory::getRealloc(fir::FirOpBuilder &builder) {
   auto ptrTy = builder.getRefType(builder.getIntegerType(8));
   llvm::SmallVector<mlir::Type> args = {ptrTy, builder.getI64Type()};
   auto reallocTy = mlir::FunctionType::get(builder.getContext(), args, {ptrTy});
   return builder.createFunction(builder.getUnknownLoc(), "realloc", reallocTy);
 }

 mlir::func::FuncOp
 fir::factory::getLlvmGetRounding(fir::FirOpBuilder &builder) {
   auto int32Ty = builder.getIntegerType(32);
   auto funcTy =
       mlir::FunctionType::get(builder.getContext(), std::nullopt, {int32Ty});
   return builder.createFunction(builder.getUnknownLoc(), "llvm.get.rounding",
                                 funcTy);
 }

 mlir::func::FuncOp
 fir::factory::getLlvmSetRounding(fir::FirOpBuilder &builder) {
   auto int32Ty = builder.getIntegerType(32);
   auto funcTy =
       mlir::FunctionType::get(builder.getContext(), {int32Ty}, std::nullopt);
   return builder.createFunction(builder.getUnknownLoc(), "llvm.set.rounding",
                                 funcTy);
 }

 mlir::func::FuncOp fir::factory::getLlvmStackSave(fir::FirOpBuilder &builder) {
   // FIXME: This should query the target alloca address space
   auto ptrTy = builder.getRefType(builder.getIntegerType(8));
   auto funcTy =
       mlir::FunctionType::get(builder.getContext(), std::nullopt, {ptrTy});
   return builder.createFunction(builder.getUnknownLoc(), "llvm.stacksave.p0",
                                 funcTy);
 }

 mlir::func::FuncOp
 fir::factory::getLlvmStackRestore(fir::FirOpBuilder &builder) {
   // FIXME: This should query the target alloca address space
   auto ptrTy = builder.getRefType(builder.getIntegerType(8));
   auto funcTy =
       mlir::FunctionType::get(builder.getContext(), {ptrTy}, std::nullopt);
   return builder.createFunction(builder.getUnknownLoc(), "llvm.stackrestore.p0",
                                 funcTy);
 }

 mlir::func::FuncOp
 fir::factory::getLlvmInitTrampoline(fir::FirOpBuilder &builder) {
   auto ptrTy = builder.getRefType(builder.getIntegerType(8));
   auto funcTy = mlir::FunctionType::get(builder.getContext(),
                                         {ptrTy, ptrTy, ptrTy}, std::nullopt);
   return builder.createFunction(builder.getUnknownLoc(), "llvm.init.trampoline",
                                 funcTy);
 }

 mlir::func::FuncOp
 fir::factory::getLlvmAdjustTrampoline(fir::FirOpBuilder &builder) {
   auto ptrTy = builder.getRefType(builder.getIntegerType(8));
   auto funcTy = mlir::FunctionType::get(builder.getContext(), {ptrTy}, {ptrTy});
   return builder.createFunction(builder.getUnknownLoc(),
                                 "llvm.adjust.trampoline", funcTy);
 }

 mlir::func::FuncOp fir::factory::getFeclearexcept(fir::FirOpBuilder &builder) {
   auto int32Ty = builder.getIntegerType(32);
   auto funcTy =
       mlir::FunctionType::get(builder.getContext(), {int32Ty}, {int32Ty});
   return builder.createFunction(builder.getUnknownLoc(), "feclearexcept",
                                 funcTy);
 }

 mlir::func::FuncOp
 fir::factory::getFedisableexcept(fir::FirOpBuilder &builder) {
   auto int32Ty = builder.getIntegerType(32);
   auto funcTy =
       mlir::FunctionType::get(builder.getContext(), {int32Ty}, {int32Ty});
   return builder.createFunction(builder.getUnknownLoc(), "fedisableexcept",
                                 funcTy);
 }

 mlir::func::FuncOp fir::factory::getFeenableexcept(fir::FirOpBuilder &builder) {
   auto int32Ty = builder.getIntegerType(32);
   auto funcTy =
       mlir::FunctionType::get(builder.getContext(), {int32Ty}, {int32Ty});
   return builder.createFunction(builder.getUnknownLoc(), "feenableexcept",
                                 funcTy);
 }

 mlir::func::FuncOp fir::factory::getFegetexcept(fir::FirOpBuilder &builder) {
   auto int32Ty = builder.getIntegerType(32);
   auto funcTy =
       mlir::FunctionType::get(builder.getContext(), std::nullopt, {int32Ty});
   return builder.createFunction(builder.getUnknownLoc(), "fegetexcept", funcTy);
 }

 mlir::func::FuncOp fir::factory::getFeraiseexcept(fir::FirOpBuilder &builder) {
   auto int32Ty = builder.getIntegerType(32);
   auto funcTy =
       mlir::FunctionType::get(builder.getContext(), {int32Ty}, {int32Ty});
   return builder.createFunction(builder.getUnknownLoc(), "feraiseexcept",
                                 funcTy);
 }

 mlir::func::FuncOp fir::factory::getFetestexcept(fir::FirOpBuilder &builder) {
   auto int32Ty = builder.getIntegerType(32);
   auto funcTy =
       mlir::FunctionType::get(builder.getContext(), {int32Ty}, {int32Ty});
   return builder.createFunction(builder.getUnknownLoc(), "fetestexcept",
                                 funcTy);
 }
	//===-- LowLevelIntrinsics.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/
	//
	//===----------------------------------------------------------------------===//
	//
	// Low level intrinsic functions.
	//
	// These include LLVM intrinsic calls and standard C library calls.
	// Target-specific calls, such as OS functions, should be factored in other
	// file(s).
	//
	//===----------------------------------------------------------------------===//

	#include "flang/Optimizer/Builder/LowLevelIntrinsics.h"
	#include "flang/Optimizer/Builder/FIRBuilder.h"

	mlir::func::FuncOp fir::factory::getLlvmMemcpy(fir::FirOpBuilder &builder) {
	auto ptrTy = builder.getRefType(builder.getIntegerType(8));
	llvm::SmallVector<mlir::Type> args = {ptrTy, ptrTy, builder.getI64Type(),
	builder.getI1Type()};
	auto memcpyTy =
	mlir::FunctionType::get(builder.getContext(), args, std::nullopt);
	return builder.createFunction(builder.getUnknownLoc(),
	"llvm.memcpy.p0.p0.i64", memcpyTy);
	}

	mlir::func::FuncOp fir::factory::getLlvmMemmove(fir::FirOpBuilder &builder) {
	auto ptrTy = builder.getRefType(builder.getIntegerType(8));
	llvm::SmallVector<mlir::Type> args = {ptrTy, ptrTy, builder.getI64Type(),
	builder.getI1Type()};
	auto memmoveTy =
	mlir::FunctionType::get(builder.getContext(), args, std::nullopt);
	return builder.createFunction(builder.getUnknownLoc(),
	"llvm.memmove.p0.p0.i64", memmoveTy);
	}

	mlir::func::FuncOp fir::factory::getLlvmMemset(fir::FirOpBuilder &builder) {
	auto ptrTy = builder.getRefType(builder.getIntegerType(8));
	llvm::SmallVector<mlir::Type> args = {ptrTy, ptrTy, builder.getI64Type(),
	builder.getI1Type()};
	auto memsetTy =
	mlir::FunctionType::get(builder.getContext(), args, std::nullopt);
	return builder.createFunction(builder.getUnknownLoc(),
	"llvm.memset.p0.p0.i64", memsetTy);
	}

	mlir::func::FuncOp fir::factory::getRealloc(fir::FirOpBuilder &builder) {
	auto ptrTy = builder.getRefType(builder.getIntegerType(8));
	llvm::SmallVector<mlir::Type> args = {ptrTy, builder.getI64Type()};
	auto reallocTy = mlir::FunctionType::get(builder.getContext(), args, {ptrTy});
	return builder.createFunction(builder.getUnknownLoc(), "realloc", reallocTy);
	}

	mlir::func::FuncOp
	fir::factory::getLlvmGetRounding(fir::FirOpBuilder &builder) {
	auto int32Ty = builder.getIntegerType(32);
	auto funcTy =
	mlir::FunctionType::get(builder.getContext(), std::nullopt, {int32Ty});
	return builder.createFunction(builder.getUnknownLoc(), "llvm.get.rounding",
	funcTy);
	}

	mlir::func::FuncOp
	fir::factory::getLlvmSetRounding(fir::FirOpBuilder &builder) {
	auto int32Ty = builder.getIntegerType(32);
	auto funcTy =
	mlir::FunctionType::get(builder.getContext(), {int32Ty}, std::nullopt);
	return builder.createFunction(builder.getUnknownLoc(), "llvm.set.rounding",
	funcTy);
	}

	mlir::func::FuncOp fir::factory::getLlvmStackSave(fir::FirOpBuilder &builder) {
	// FIXME: This should query the target alloca address space
	auto ptrTy = builder.getRefType(builder.getIntegerType(8));
	auto funcTy =
	mlir::FunctionType::get(builder.getContext(), std::nullopt, {ptrTy});
	return builder.createFunction(builder.getUnknownLoc(), "llvm.stacksave.p0",
	funcTy);
	}

	mlir::func::FuncOp
	fir::factory::getLlvmStackRestore(fir::FirOpBuilder &builder) {
	// FIXME: This should query the target alloca address space
	auto ptrTy = builder.getRefType(builder.getIntegerType(8));
	auto funcTy =
	mlir::FunctionType::get(builder.getContext(), {ptrTy}, std::nullopt);
	return builder.createFunction(builder.getUnknownLoc(), "llvm.stackrestore.p0",
	funcTy);
	}

	mlir::func::FuncOp
	fir::factory::getLlvmInitTrampoline(fir::FirOpBuilder &builder) {
	auto ptrTy = builder.getRefType(builder.getIntegerType(8));
	auto funcTy = mlir::FunctionType::get(builder.getContext(),
	{ptrTy, ptrTy, ptrTy}, std::nullopt);
	return builder.createFunction(builder.getUnknownLoc(), "llvm.init.trampoline",
	funcTy);
	}

	mlir::func::FuncOp
	fir::factory::getLlvmAdjustTrampoline(fir::FirOpBuilder &builder) {
	auto ptrTy = builder.getRefType(builder.getIntegerType(8));
	auto funcTy = mlir::FunctionType::get(builder.getContext(), {ptrTy}, {ptrTy});
	return builder.createFunction(builder.getUnknownLoc(),
	"llvm.adjust.trampoline", funcTy);
	}

	mlir::func::FuncOp fir::factory::getFeclearexcept(fir::FirOpBuilder &builder) {
	auto int32Ty = builder.getIntegerType(32);
	auto funcTy =
	mlir::FunctionType::get(builder.getContext(), {int32Ty}, {int32Ty});
	return builder.createFunction(builder.getUnknownLoc(), "feclearexcept",
	funcTy);
	}

	mlir::func::FuncOp
	fir::factory::getFedisableexcept(fir::FirOpBuilder &builder) {
	auto int32Ty = builder.getIntegerType(32);
	auto funcTy =
	mlir::FunctionType::get(builder.getContext(), {int32Ty}, {int32Ty});
	return builder.createFunction(builder.getUnknownLoc(), "fedisableexcept",
	funcTy);
	}

	mlir::func::FuncOp fir::factory::getFeenableexcept(fir::FirOpBuilder &builder) {
	auto int32Ty = builder.getIntegerType(32);
	auto funcTy =
	mlir::FunctionType::get(builder.getContext(), {int32Ty}, {int32Ty});
	return builder.createFunction(builder.getUnknownLoc(), "feenableexcept",
	funcTy);
	}

	mlir::func::FuncOp fir::factory::getFegetexcept(fir::FirOpBuilder &builder) {
	auto int32Ty = builder.getIntegerType(32);
	auto funcTy =
	mlir::FunctionType::get(builder.getContext(), std::nullopt, {int32Ty});
	return builder.createFunction(builder.getUnknownLoc(), "fegetexcept", funcTy);
	}

	mlir::func::FuncOp fir::factory::getFeraiseexcept(fir::FirOpBuilder &builder) {
	auto int32Ty = builder.getIntegerType(32);
	auto funcTy =
	mlir::FunctionType::get(builder.getContext(), {int32Ty}, {int32Ty});
	return builder.createFunction(builder.getUnknownLoc(), "feraiseexcept",
	funcTy);
	}

	mlir::func::FuncOp fir::factory::getFetestexcept(fir::FirOpBuilder &builder) {
	auto int32Ty = builder.getIntegerType(32);
	auto funcTy =
	mlir::FunctionType::get(builder.getContext(), {int32Ty}, {int32Ty});
	return builder.createFunction(builder.getUnknownLoc(), "fetestexcept",
	funcTy);
	}