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//===-- FIRContext.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/Support/FIRContext.h"
#include "flang/Optimizer/Dialect/Support/KindMapping.h"
#include "mlir/Dialect/LLVMIR/LLVMDialect.h"
#include "mlir/IR/BuiltinAttributes.h"
#include "mlir/IR/BuiltinOps.h"
#include "llvm/TargetParser/Host.h"
void fir::setTargetTriple(mlir::ModuleOp mod, llvm::StringRef triple) {
auto target = fir::determineTargetTriple(triple);
mod->setAttr(mlir::LLVM::LLVMDialect::getTargetTripleAttrName(),
mlir::StringAttr::get(mod.getContext(), target));
}
llvm::Triple fir::getTargetTriple(mlir::ModuleOp mod) {
if (auto target = mod->getAttrOfType<mlir::StringAttr>(
mlir::LLVM::LLVMDialect::getTargetTripleAttrName()))
return llvm::Triple(target.getValue());
return llvm::Triple(llvm::sys::getDefaultTargetTriple());
}
static constexpr const char *kindMapName = "fir.kindmap";
static constexpr const char *defKindName = "fir.defaultkind";
void fir::setKindMapping(mlir::ModuleOp mod, fir::KindMapping &kindMap) {
auto *ctx = mod.getContext();
mod->setAttr(kindMapName, mlir::StringAttr::get(ctx, kindMap.mapToString()));
auto defs = kindMap.defaultsToString();
mod->setAttr(defKindName, mlir::StringAttr::get(ctx, defs));
}
fir::KindMapping fir::getKindMapping(mlir::ModuleOp mod) {
auto *ctx = mod.getContext();
if (auto defs = mod->getAttrOfType<mlir::StringAttr>(defKindName)) {
auto defVals = fir::KindMapping::toDefaultKinds(defs.getValue());
if (auto maps = mod->getAttrOfType<mlir::StringAttr>(kindMapName))
return fir::KindMapping(ctx, maps.getValue(), defVals);
return fir::KindMapping(ctx, defVals);
}
return fir::KindMapping(ctx);
}
fir::KindMapping fir::getKindMapping(mlir::Operation *op) {
auto moduleOp = mlir::dyn_cast<mlir::ModuleOp>(op);
if (moduleOp)
return getKindMapping(moduleOp);
moduleOp = op->getParentOfType<mlir::ModuleOp>();
return getKindMapping(moduleOp);
}
static constexpr const char *targetCpuName = "fir.target_cpu";
void fir::setTargetCPU(mlir::ModuleOp mod, llvm::StringRef cpu) {
if (cpu.empty())
return;
auto *ctx = mod.getContext();
mod->setAttr(targetCpuName, mlir::StringAttr::get(ctx, cpu));
}
llvm::StringRef fir::getTargetCPU(mlir::ModuleOp mod) {
if (auto attr = mod->getAttrOfType<mlir::StringAttr>(targetCpuName))
return attr.getValue();
return {};
}
static constexpr const char *tuneCpuName = "fir.tune_cpu";
void fir::setTuneCPU(mlir::ModuleOp mod, llvm::StringRef cpu) {
if (cpu.empty())
return;
auto *ctx = mod.getContext();
mod->setAttr(tuneCpuName, mlir::StringAttr::get(ctx, cpu));
}
static constexpr const char *atomicIgnoreDenormalModeName =
"fir.atomic_ignore_denormal_mode";
void fir::setAtomicIgnoreDenormalMode(mlir::ModuleOp mod, bool value) {
if (value) {
auto *ctx = mod.getContext();
mod->setAttr(atomicIgnoreDenormalModeName, mlir::UnitAttr::get(ctx));
} else {
if (mod->hasAttr(atomicIgnoreDenormalModeName))
mod->removeAttr(atomicIgnoreDenormalModeName);
}
}
bool fir::getAtomicIgnoreDenormalMode(mlir::ModuleOp mod) {
return mod->hasAttr(atomicIgnoreDenormalModeName);
}
static constexpr const char *atomicFineGrainedMemoryName =
"fir.atomic_fine_grained_memory";
void fir::setAtomicFineGrainedMemory(mlir::ModuleOp mod, bool value) {
if (value) {
auto *ctx = mod.getContext();
mod->setAttr(atomicFineGrainedMemoryName, mlir::UnitAttr::get(ctx));
} else {
if (mod->hasAttr(atomicFineGrainedMemoryName))
mod->removeAttr(atomicFineGrainedMemoryName);
}
}
bool fir::getAtomicFineGrainedMemory(mlir::ModuleOp mod) {
return mod->hasAttr(atomicFineGrainedMemoryName);
}
static constexpr const char *atomicRemoteMemoryName =
"fir.atomic_remote_memory";
void fir::setAtomicRemoteMemory(mlir::ModuleOp mod, bool value) {
if (value) {
auto *ctx = mod.getContext();
mod->setAttr(atomicRemoteMemoryName, mlir::UnitAttr::get(ctx));
} else {
if (mod->hasAttr(atomicRemoteMemoryName))
mod->removeAttr(atomicRemoteMemoryName);
}
}
bool fir::getAtomicRemoteMemory(mlir::ModuleOp mod) {
return mod->hasAttr(atomicRemoteMemoryName);
}
llvm::StringRef fir::getTuneCPU(mlir::ModuleOp mod) {
if (auto attr = mod->getAttrOfType<mlir::StringAttr>(tuneCpuName))
return attr.getValue();
return {};
}
static constexpr const char *targetFeaturesName = "fir.target_features";
void fir::setTargetFeatures(mlir::ModuleOp mod, llvm::StringRef features) {
if (features.empty())
return;
auto *ctx = mod.getContext();
mod->setAttr(targetFeaturesName,
mlir::LLVM::TargetFeaturesAttr::get(ctx, features));
}
mlir::LLVM::TargetFeaturesAttr fir::getTargetFeatures(mlir::ModuleOp mod) {
if (auto attr = mod->getAttrOfType<mlir::LLVM::TargetFeaturesAttr>(
targetFeaturesName))
return attr;
return {};
}
void fir::setIdent(mlir::ModuleOp mod, llvm::StringRef ident) {
if (ident.empty())
return;
mlir::MLIRContext *ctx = mod.getContext();
mod->setAttr(mlir::LLVM::LLVMDialect::getIdentAttrName(),
mlir::StringAttr::get(ctx, ident));
}
llvm::StringRef fir::getIdent(mlir::ModuleOp mod) {
if (auto attr = mod->getAttrOfType<mlir::StringAttr>(
mlir::LLVM::LLVMDialect::getIdentAttrName()))
return attr;
return {};
}
void fir::setCommandline(mlir::ModuleOp mod, llvm::StringRef cmdLine) {
if (cmdLine.empty())
return;
mlir::MLIRContext *ctx = mod.getContext();
mod->setAttr(mlir::LLVM::LLVMDialect::getCommandlineAttrName(),
mlir::StringAttr::get(ctx, cmdLine));
}
llvm::StringRef fir::getCommandline(mlir::ModuleOp mod) {
if (auto attr = mod->getAttrOfType<mlir::StringAttr>(
mlir::LLVM::LLVMDialect::getCommandlineAttrName()))
return attr;
return {};
}
std::string fir::determineTargetTriple(llvm::StringRef triple) {
// Treat "" or "default" as stand-ins for the default machine.
if (triple.empty() || triple == "default")
return llvm::sys::getDefaultTargetTriple();
// Treat "native" as stand-in for the host machine.
if (triple == "native")
return llvm::sys::getProcessTriple();
// TODO: normalize the triple?
return triple.str();
}
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